Novel genes and markers associated with high-density lipoprotein-cholesterol (HDL-C)

ABSTRACT

This invention relates to the therapeutic, diagnostic and pharmacogenetic use of nucleic acids and proteins involved in the regulation of human high density lipoprotein (HDL) and pharmaceutical agents and other therapies affecting this. This invention discloses methods for the treatment and prevention of low HDL states and diseases to prevent cardiovascular diseases such as coronary heart disease (CHD), acute myocardial infarction (AMI), chronic CHD and cerebrovascular stroke and for selecting treatment in a subject and for selecting subjects for studies testing HDL elevating agents, as well as to transgenic animals.

FIELD OF THE INVENTION

The present invention relates generally to the field of treatment and prevention of low high-density lipoprotein-cholesterol (HDL-C) states, as it provides novel methods for prevention and treatment of low HDL-C status. The invention also relates to the field of prevention and treatment of conditions characterised by low HDL-C, such as cardiovascular diseases (CVD), type 2 diabetes (MD), the metabolic syndrome (MBO) and obesity, via diagnosis and treatment of low HDL-C. In addition, the invention relates to methods for screening new chemical entities for elevating HDL.

Low HDL-C and Disease

There are several main classes of plasma transporters, which carry and enhance the exchange of lipids in the circulation and between plasma and cells. These include the chylomicrons (CM), the very low-density lipoproteins (VLDL), the intermediate lipoproteins (ILP), the low-density lipoproteins (LDL) and HDL. A number of others exist (lipoprotein a, subtypes of the main classes), though not routinely measured.

Low HDL-cholesterol (HDL-C), high LDL-C and high plasma triglycerides (Tg) embody a dyslipidemia, common for atherosclerosis, T2D, obesity and MBO.

HDL represents one of the main lipoprotein carriers of cholesterol. Low HDL-C levels characterize about 10% of the general population (Sampietro T et al, 2005). Furthermore, low HDL concentration represents the most frequent dyslipidemia in patients with coronary artery disease (CAD) (Sampietro T, et al, 2005).

Despite of the existence of a number of drugs successfully reducing LDL plasma availability, the following reduction of cardiovascular risk does not prove to be enough sufficient. A number of clinical studies have been aiming to determine whether aggressive lowering of LDL-C beyond the currently accepted guidelines would result in further reduction of cardiovascular events (Cannon C P, et al, 2004; Waters D D, et al,2004). The results from some of those studies are still pending, while others such as the PROVE IT-TIMI 22 (Cannon, C. P., et al., 2004) have shown certain benefits of aggressive lowering of LDL, which, however, leave remarkably high residual cardiovascular disease (CVD) occurrence.

HDL is an independent predictor of the risk of CHD or CAD (Castelli W P et al, 1986, Salonen J T et al, 1991). Already in 1977 it was shown that CAD patients have 35% lower HDL-C levels than controls and those with lowered HDL have been exposed to three times higher likelihood of developing CAD than those with elevated LDL-C (Miller N E et al, 1977). Low HDL-C was observed to be the most common lipid abnormality in men with coronary artery disease (Genest J J et al, 1991). According to the first large-scale prospective trial to study the effect of raising HDL-C on CAD incidence (the Helsinki Heart Study), 11% increase in HDL-C levels was independently associated with a 34% reduction in CAD events (Manninen V et al, 1992). A number of other clinical studies have confirmed a significantly reduced incidence of coronary events after an increase in HDL-C concentration (Alberti K G 1998; Frick M H et al, 1987; Rubins H B et al, 1999). Thus elevating the low HDL-C levels independently or in combination with a decreasing of the high LDL-C state represents a frontier in the treatment and prevention of CVD.

Besides characterising the dyslipidemia related to T2D, low HDL-C has been related to a higher conversion rate from impaired glucose tolerance (IGT) to T2D (Todorova B et al, 2004). Subjects with type 2 diabetes generally carry an array of risk factors for cardiovascular disease (CVD), including hyperglycaemia, dyslipidaemia (high Tg, high LDL-C and low HDLC), alterations in inflammatory mediators and coagulation/thrombolytic parameters, as well as other ‘non-traditional’ risk factors, many of which may be closely associated with insulin resistance (Erdmann E, 2005). Consequently, rates of CVD mortality and morbidity are particularly high in this population (Erdmann E, 2005). Targeting hyperglycaemia alone does not reduce the excess cardiovascular risk in diabetic patients, highlighting the need for aggressive treatment of other risk factors and in that sense the low HDL-C levels.

Not lastly, low HDL-C is one of the hallmarks of the metabolic/insulin resistance syndrome (MS, IRS, MBO)—a concurrence of disturbed glucose and insulin metabolism, overweight and abdominal fat distribution, mild dyslipidemia and hypertension. The syndrome is characterized by insulin resistance, and is also known as the insulin resistance syndrome. An elevation of the decreased HDL-C levels yet again implies for a rationale drug target in the prevention and treatment of MS.

Atheroprotective Effect of HDL

At a molecular level, atherosclerosis is a time dependent, multistep process involving the interaction of many different key pathways, including lipoprotein metabolism (Chisolm G M and D Steinberg, 2000), lipoprotein oxidation (Salonen J T et al, 1992), coagulation (Tremoli E et al, 1999) and inflammation (Ross R, 1999). Gene mutations in any of these pathways will only provide a partial contribution to risk. Intermediate phenotypes such as hypertension, diabetes, smoking and obesity interact to modulate risk as will do gene-gene and gene-environment interactions (Stephens J W and Humphries S E, 2003).

The atheroprotective role of HDL particles has been widely studied though still to be elucidated. A proposed mechanism leading to the formation of the foam cells and thus to the formation of the atherosclerotic plaque is the imbalance between the uptake of lipoproteins and cholesterol efflux from Mf (Linsel-Nitschke P and Tall A R, 2005). HDL mediated efflux of cholesterol from cholesterol loaded macrophages, other cells and LDL particles takes place in the following described RCT pathway. The lipid content of the LDL particles is known to be more prone to oxidation than the one in the HDL (Navab M et al, 2004). Furthermore, the LDL particles have the characteristic to remain longer in the subendothelial space compared to the HDLs.

HDL is considered to expand its protective role further than only in promoting the efflux of cholesterol from lipid-loaded cells. HDL particles show anti-inflammatory activity and are effective antioxidants via suppressing the induction of cell-adhesion molecules in endothelial cells, mediated by tumour necrosis factor α (TNFα) (Cockerill G W et al, 1995) and C-reactive protein (CRP) (Wadham C et al, 2004). Thus they have a role to lessen the recruitment of blood monocytes into the arterial wall. Further on, by means of the ApoA1 and ApoA2, which are known to have antioxidant characteristics, as well as via the cotransport of paraoxonase, HDL particles expand their antioxidant functions (Barter P J et al, 2004).

It has been shown that oxidized LDL (oxLDL) depletes caveolae of cholesterol, which on turn results in the displacement of endothelial nitric-oxide synthase (eNOS) from caveolae with impairement of the eNOS activation (Uittenbogaard A et al, 2000). HDL binding to the scavenger receptor BI (SR-BI) maintains the concentration of caveola-associated cholesterol by promoting the uptake of cholesterol esters, thereby preventing oxLDL-induced depletion of caveola cholesterol (Uittenbogaard A et al, 2000). Furthermore, HDL maintains the subcellular location of eNOS which decreases the capacity for eNOS activation (Uittenbogaard A et al, 2000). Additionally, HDL activates eNOS (Yuhanna I. S et al, 2001) and accounts for increased myocardial perfusion via NO-dependent mechanisms (Levkau B et al, 2004).

The Reverse Cholesterol Transport

Several aspects engage HDL particles as modulators of the formation and progression of the atherosclerotic plaque, the main of which involves the promotion of cholesterol efflux in the reverse cholesterol transport pathway (RCT). RCT on the other hand encompasses the main pathway of metabolism, regulation, transformation and degradation of the HDL particle.

The primary site for nascent HDL formation is liver, whereas peripheral tissues and liver both are involved in further lipidation of the HDL particles. Apolipoprotein A 1 (ApoA1) is the main structural component of the HDL particles. Secreted by the liver ApoA1 becomes associated with phospholipids and shapes the discoidal nascent pre-βHDL particle.

The initial step of the RCT is the transfer of cholesterol and phospholipids to the lipid-poor ApoA1. It is mediated by the membrane ATP-binding cassette transporter 1 (ABCA1) protein. ABCA1 belongs to the ATP-binding cassette transporter superfamily which is known to carry a large number of molecules, such as proteins, ions and lipids across plasma membranes. ABCA1 deficiency results in little or no plasma HDL in human or animals (Attie A D, 2001), while its overexpression has been related to increased cholesterol and phospholipid efflux, accompanied by increased HDL levels (Singaraja R R, et al, 2001; Vaisman B L et al, 2001).

The free cholesterol on the surface of the small pre-βHDL particles undergoes esterification in order to be stored in the core of the particles. In this process the small discoidal particle is transformed to a spherical and larger one. The cholesterol esterification is mediated by the lecithin cholesterol acyl transferase (LCAT). LCAT is an enzyme, secreted by the liver and circulating in blood. It binds reversibly to the surface of the HDL particles. The process of cholesterol esterification and accumulation of the cholesterol esters in the particle core promotes further cholesterol efflux from cells to the HDL particles. Thus LCAT plays a pivotal role in promoting of the cholesterol uptake from the lipid loaded cells (Wang, M. and M. R. Briggs, 2004).

The spherical and smaller HDL particle (HDL₃) becomes larger HDL₂ as it accepts more free cholesterol from cells. This stage of cholesterol transfer from cells to HDL₃ is mediated by the scavenger receptor B1 (SR-B1) or a passive diffusion, both distinct from the one mediated by the ABCA1 (Wang M and Briggs M R, 2004). The scavenger receptors are cell surface membrane proteins that bind chemically modified lipoproteins such as acetylated LDL and oxidised LDL (Krieger M, 1997). SR-B1 binds HDL particles with high affinity and represents a mediator of the selective cholesterol uptake. Furthermore, it is as well the HDL receptor responsible for the selective HDL uptake in the liver (Wang M and Briggs M R, 2004).

A central element in the RCT is the interaction between the LDL, VLDL and HDL particles and particularly the exchange of cholesterol esters, phospholipids and triglycerides. As a result the excess cholesterol is transported from the periphery to a metabolic disposal or recycling processes. The cholesterol ester transfer protein (CETP) mediates the exchange of lipids from the large HDL₂ and LDL particles to the VLDL particles (Wang M and Briggs M R, 2004). CETP is associated with the HDL particles in plasma and its activity is reversely correlated to the HDL-C levels. The phospholipids transfer protein (PLTP) is another transferring protein, which mediates the transport of lipids from the VLDL to the HDL₃ particles (Wang M and Briggs M R, 2004).

The degradation of large cholesterol-rich HDL₂ particles follows the cholesterol ester selective uptake, mediated by the SR-B1 (Wang M and Briggs M R, 2004). In the liver the cholesterol molecules are excreted via the bile or further utilized in body systems, while the ApoA1 is used in a new cycle of RCT.

An alternative way for HDL degradation is present in kidneys where the ApoA1 undergoes a renal clearance via interaction with a receptor, known as cubulin. Cubulin is expressed in a various number of tissues and shows a co-expression with megalin—a member of the LDL receptor family (Moestrup SK et al, 1998). Cubulin is a major ligand not only for ApoA1 but for HDL particles as well, as it efficiently mediates their endocytosis (Moestrup S K and Kozyraki R, 2000).

Necessary to be mentioned is a number of lipases, playing major roles in the HDL metabolism. The lipoprotein lipase (LPL) is bound to the surface of the endothelial cells and its activity correlates positively with the HDL concentration (Tornvall P et al, 1995). In the process of hydrolysing Tg rich lipoproteins (chylomicrons and VLDL), redundant surface lipids (free cholesterol and phospholipids) and apolipoproteins are transferred to HDL particles, contributing to the plasma HDL-C levels (Lewis G F and Rader D J, 2005).

The hepatic lipase (HL), another member of the lipases family, is situated on the surface of the sinusoidal capillaries in liver. In contrast to LPL, the HL has greater affinity to HDL particles than to VLDL or chylomicrons and converts larger HDL particles to smaller cholesterol-poor HDL remnants (Lewis G F and Rader D J, 2005). The endothelial lipase (EL) represents one more important HDL modulating lipase, which is located on the surface of the endothelium and is recognised to have a phospholipase A activity (Lewis G F and Rader D J, 2005).

Determinants of HDL

The main participants in the RCT pathway are the principal contributors to the HDL plasma levels. It has been shown that mutations in the genes encoding for ABCA1, LCAT, CETP, PLTP, HL, LPL, EL and SR-B1 have an impact on the HDL levels (Singaraja R R et al, 2001; Miltiadous G et al, 2005; Thompson J F et al, 2005; Cohen J C et al, 2004; Brousseau M E et al, 2004; Mank-Seymour A R et al, 2004; Morabia A et al, 2004). However, a number of other receptors, transporters and enzymes have influence on the HDL metabolism and plasma concentration. In that order, ABCG1 and ABCG4 have been reported to mediate the efflux of cellular cholesterol to mature HDL particles (but not to lipid poor ApoA1) (Wang N et al, 2004). Polymorphisms in the genes encoding for the ABCG5 and ABCG8 transporter proteins, which are related to the sitosterolemia (an inherited disorder, characterised by high absorption and low biliary secretion of cholesterol and plant sterols) have been associated with low HDL-C (Gylling H et al, 2004). To be mentioned further are members of the secretory phospholipase A2 family, which are plausibly relevant to the physiology of the HDL metabolism, by influencing the size and catabolism of the HDL particles (Tietge U J et al, 2002).

ApoA1 accounts for up to 70% of apolipoprotein content of HDL particles (Lewis G F and Rader D J, 2005; Davidson W S and Silva R A, 2005). ApoA1 exists in three main plasma forms (Davidson W S and Silva R A, 2005). Approximately 5-10% of plasma ApoA1 is found in a lipoprotein-unassociated state (Davidson W S and Silva R A, 2005). The other two forms of ApoA1 are coupled with the state of HDL reshaping, varying between discoidal and spherical. It has been postulated that ApoA1 responds to changes of the HDL diameter by folding or unfolding its so-called “hinge” domains (Davidson WS and Silva RA, 2005).

Since ApoA1 represents the main structural component of the HDL particles, the regulation of the ApoA1 gene expression, mutations and ApoA1 synthesis would have a significant implication on the HDL plasma concentration. Among the factors influencing the ApoA1 synthesis and metabolism are some hormones, such as thyroid hormones, estrogens and glucocorticoids (Hargrove G M et al, 1999). Furthermore, glucose and insulin (Mooradian A D, 2004), as well as cellular acidity (ketoacidosis) (Mooradian A D, 2004) and insulin resistance (Lopez-Candales A, 2001; Vajo Z et al., 2002) have shown to be associated with ApoA1 and HDL-C levels as well.

ApoA2 is the second most abundant apolipoprotein on HDL particles. A variety of other proteins such as ApoA4, ApoC1, ApoC3, ApoD, ApoE, ApoJ, ApoL1, ApoM and others contribute additionally to the HDL structure and thus modulate HDL plasma levels (Singaraja R R et al., 2001).

Among the non-genetic factors with a major influence on the HDL-C levels are age, gender, smoking (Nash D T, 2004), diet (Nash D T, 2004), alcohol consumption (Nash D T, 2004), exercise and physical activity (Nash D T, 2004). Also body composition, and specifically fat distribution (Pi-Sunyer F X, 2004), which are only in part genetivcally determined, have a major influence on HDL levels.

Obesity and particularly visceral obesity is associated with low HDL-C concentration (Pi-Sunyer F X, 2004). Adipose tissue and precisely the visceral adipocytes are metabolically very active, expressing various secretory proteins such as adiponectine, angiotensinogen, tumour necrosis factor-α (TNF-α), interleukins (ILs), plasminogen activator inhibitor type 1 and others. The free fatty acids (FFA), the TNFα and the IL-1β have been shown to alter the ApoA1 activation and expression and thus encompass an additional weight on the HDL-C levels (Haas M J et al, 2003).

Public Health Significance of CVD, T2D and MBO

Cardiovascular Diseases (CVD) (ICD/10 codes I00-I99, Q20-Q28) include ischemic (coronary) heart disease (CHD), hypertensive diseases, cerebrovascular disease (stroke) and rheumatic fever/rheumatic heart disease, among others (AHA, 2004). In terms of morbidity, mortality and cost CHD is the most important disease group of CVD. CHD (ICD/10 codes I20-I25) includes acute myocardial infarction (AMI), other acute ischemic (coronary) heart disease, angina pectoris; atherosclerotic cardiovascular disease and all other forms of chronic ischemic heart disease (AHA, 2004). Dyslipidemia (low HDL-C, high LDL-C and high FFA levels) is among the major CVD risk factors (Stamler J et al, 1998).

In 2001 an estimated 16.6 million—or one-third of total global deaths—resulted from the various forms of CVD (7.2 million due to CHD, 5.5 million to cerebrovascular disease, and an additional 3.9 million to hypertensive and other heart conditions). At least 20 million people survive heart attacks and strokes every year, a significant proportion of them requiring costly clinical care, which puts a huge burden on long-term care resources. It is necessary to recognize that CVD are devastating to men, women and children (ADA, 2004).

The term diabetes mellitus (DM) (ICD/10 codes E10-E14) describes several syndromes of abnormal carbohydrate metabolism that are characterized by hyperglycaemia. According to the new etiologic classification of DM, four categories are differentiated: type 1 diabetes (T1D), type 2 diabetes (T2D), other specific types, and gestational diabetes mellitus (ADA, 2003). In the United States, Canada, and Europe, over 80% of cases of diabetes are due to T2D, 5 to 10% to T1D, and the remainder to other specific causes. T2D is associated with a relative or absolute impairment in insulin secretion, along with varying degrees of peripheral resistance to the action of insulin. The chronic hyperglycaemia of diabetes is associated with long-term damage, dysfunction, and failure of various organs, especially the eyes, kidneys, nerves, heart, and blood vessels (ADA, 2003). T2D is characterized by adult onset insulin resistance and a rise in blood sugar concentration. In T1D, formerly known as insulin-dependent (IDDM), the pancreas fails to produce the insulin which is essential for survival. This form develops most frequently in children and adolescents, but is being increasingly diagnosed later in life. T2D, formerly named non-insulin-dependent (NIDDM), results from the body's inability to respond properly to the action of insulin produced by the pancreas. T-2D occurs most frequently in adults, but is being noted increasingly in adolescents as well (WHO, 2004). The causes of T2D are multi-factorial and include both genetic and environmental elements that affect beta cell function and tissue insulin sensitivity (muscle, liver, adipose tissue, pancreas). Although there is considerable debate as to the relative contributions of beta-cell dysfunction and reduced insulin sensitivity to the pathogenesis of diabetes, it is generally agreed that both of these factors play important roles (Scheen A J, 2003).

In 2000, there were approximately 171 million people, worldwide, with diabetes. The number of people with diabetes will expectedly double over the next 25 years and reach a total of 366 million by 2030 (WHO/IDF, 2004). Most of this increase will occur as a result of a 150% rise in developing countries. This suggests the role of relatively modern environmental or behavioural risk factors such as high caloric intake or sedentary lifestyle. However, ethnic differences in the incidence and prevalence of T2D and the enrichment of T2D in families suggest heritable risk factors to play a major role. The two main contributors to the worldwide increase in prevalence of diabetes are population ageing and urbanization, especially in developing countries, with the consequent increase in the prevalence of obesity (WRO/IDF, 2004). Currently more than 1 billion adults are overweight—and at least 300 million of them are clinically obese. Current obesity levels range from below 5% in China, Japan and certain African nations, to over 75% in urban Samoa. The prevalence of obesity is 10-25% in Western Europe and 20-27% in the Americas (WHO, 2004).

A distinct increase in the occurrence of MS has been observed worldwide in both adults and adolescence (Williams C L et al, 2002), and it is considered as an epidemic affecting not only the industrialized countries but the developing world as well.

To conclude, in a view of the pandemic spread of obesity, MBO, CVD and T2D, all in which low HDL-C has an important role, there is a lack of treatment models and medications focusing on the elevation of HDL-C. HDL levels are largely genetically determined, with results from different studies ranging from 24% to 83%, depending on different twin or family studies. A cluster of genetic and environmental factors has been assigned to the origin and development of CVD, T2D and MBO, lipid genetic determinants included. Thus, the discovery of genes regulating HDL metabolism and HDL plasma concentrations offers novel therapeutic strategies and targets in the management of the mentioned conditions.

SUMMARY OF THE INVENTION

This invention relates to genes and biomarkers associated with low HDL-C levels and their use in the treatment and prevention of diseases and traits associated with low HDL-C levels. As ApoA1 is the major lipoprotein present in HDL particles the genes associated with ApoA1 levels (table 9.) are associated with HDL-C levels as well. Thus, the terms “HDL” and “HDL-C” are used in this patent to denote both high density lipoprotein and apolipoprotein AI. The present invention provides novel low HDL-C plasma level associated genes and individual SNP markers and combinations of SNP markers (haplotypes). The invention further relates to physiological and biochemical routes and pathways related to these genes. These pathways provide a basis for further research and development of CVD, T2D, MBO and obesity predisposition, diagnosis and treatment.

One major object of this invention is to provide novel methods for the treatment of low HDL-C by modifying the expression of HDL-C associated genes, by modifying the activity or function of proteins and polypeptides encoded by said genes, or by modifying the activity or function of endogenous and exogenous modulators of said low HDL-C associated genes, proteins or polypeptides in the human or animal subject. Yet another aspect of the invention is methods for the treatment of diseases and conditions related to low HDL-C concentration, i.e. CVD, T2D, MBO and obesity.

Another major object of this invention is to provide novel methods for the prevention of low HDL-C by modifying the expression of HDL-C associated genes, by modifying the activity or function of proteins and polypeptides encoded by said genes, or by modifying the activity or function of endogenous and exogenous modulators of said low HDL-C associated genes, proteins or polypeptides in the human or animal subject. Yet another aspect of the invention is methods for the prevention of diseases and conditions related to low HDL-C concentration, i.e. CVD, T2D, MBO and obesity.

Still another object of the invention is to provide methods for prediction of clinical course and monitoring the efficacy of treatments for low HDL-C using biomarkers related to the low HDL-C associated genes of this invention. Yet another object of the invention is methods to targeting HDL elevating, anti-CHD or anti-diabetic treatments in subjects having low HDL-C level associated disease of trait by determining the presence of mutations and sequence variations effecting expression of one or more genes set forth in tables 1, 8 and 9.

Another object of the invention is providing novel pathways to elucidate the presently unknown modes of action of known drugs with impact on HDL-C levels.

The invention also provides methods for screening compounds for the treatment of the low HDL-C level associated diseases and traits. A further object of the invention is to provide a method for the selection of experimental animals and human subjects for studies testing HDL elevating effects of drugs. A further object of the invention is methods of using non-human transgenic and gene knock-out animals for screening agents targeted to a gene set forth in tables 1 to 11 for the treatment or prevention of the low HDL-C level associated diseases and traits.

In summary, the invention helps meet the unmet medical needs and promotes public health in at least two major ways: 1) it provides novel means to prevent and treat low HDL-C levels and reduce the risk of an individual having low HDL-C level associated diseases such as CVD, T2D, MBO and obesity and 2) it provides drug and other therapeutic targets that can be used further to screen and develop therapeutic agents and therapies that can be used to increase low HDL-C levels and consequently to prevent CVD, T2D, MBO, obesity and other conditions related to low HDL-C before they manifest clinically; to prevent complications, to treat clinical symptoms and/or to retard the progression of said diseases and conditions.

DETAILED DESCRIPTION OF THE INVENTION

The present invention discloses methods for the prevention and treatment of low HDL-C levels. Furthermore, it includes methods for prevention and treatment of diseases and clinical conditions related to low HDL-C, i.e. CVD, T2D, MBO and obesity in a human or animal. In the following, the word treating shall also be understood to include preventing. In the present invention, an individual who has or is at risk of low HDL-C is an individual who has a risk-increasing allele in at least one of the HDL-C-associated genes set forth in tables 1, 8 and 9. The term “gene” as used herein, refers to an entirety containing all regulatory elements located both upstream and downstream as well as within of a polypeptide encoding sequence, 5′ and 3′ untranslated regions of mRNA and the entire polypeptide encoding sequence including all exon and intron sequences (also alternatively spliced exons and introns) of a gene.

Low levels of HDL-C relate significantly and independently to increased occurrence of atherosclerosis, CVD, T2D and metabolic syndrome. An increase in low HDL-C levels has been shown indisputably to relate to improved CVD survival.

Atherosclerosis is a continuous inflammatory process of lipid deposition in the arterial wall and further oxidation of the deposited lipids. Higher delivery of LDL particles to the endothelial intima and their longer deposition there predisposes to increased accumulation of subendothelial lipids and higher probability for developing atherosclerotic plaque or increasing/unstabilizing an existent one. HDL particles antagonize the oxidation of LDLU and decrease the availability of LDL lipid content prone to oxidation. Thus, decrease in plasma HDL-C (by increased HDL excretion or decreased production for instance) results in poorer protection of the endothelium against oxidative action, excess of prone to oxidation LDL particles, and increased risk for atherosclerosis.

Besides antagonising LDL oxidation and subendothelial accumulation HDL particles hold other anti-atherogenic properties, expressed in the RCT, possess antioxidative characteristics, and neutralise the effect of inflammatory markers on the endothelial cells.

ApoA1 is a main structural component of HDL particles, and alteration in its plasma level will reflect HDL-C concentration.

Therefore, we propose that genetic defects that modulate or alter HDL-C levels is a general mechanism in the body of a mammalian subject, such as human, which contributes to the development of common degenerative diseases and related traits, such as cardiovascular and metabolic diseases, and traits predisposing to them. Identification of novel genes and pathways responsible for the regulation of HDL-C concentration enables the development of new methods for improving/increasing HDL-C levels, and thus offers novel methods to treat and prevent said common degenerative diseases.

The present invention relates to the genes and the encoded proteins or polypeptides regulating HDL metabolism, and endogenous and exogenous modulators of said genes, proteins or polypeptides.

Methods of Therapy

The invention discloses novel methods for the treatment and prevention of low HDL-C levels based on modulation of polypeptides and related metabolic pathways regulating HDL-C levels. The invention further proposes methods of prevention, follow-up and treatment of conditions related to low HDL-C levels, i.e. CVD, T2D, MBO and obesity.

The term, “treatment” as used herein, refers not only to ameliorating symptoms associated with the trait or disease, but also preventing or delaying the onset of the disease, and also lessening the severity or frequency of symptoms of the disease, preventing or delaying the occurrence of a second episode of the disease or condition; and/or also lessening the severity or frequency of symptoms of the disease or condition.

In particular, the invention relates to methods of treatment for low HDL-C trait or susceptibility to low HDL-C (for example, for individuals in an at-risk population such as those described herein); as well as to methods of treatment for manifestations of low HDL-C related conditions including but not limited to atherosclerosis, CVD, T2D, MBO and obesity.

The present invention encompasses methods of treatment (prophylactic and/or therapeutic) for low HDL-C, such as individuals in the target populations described herein, using a low HDL-C level increasing therapeutic agent. A “low HDL-C level increasing therapeutic agent” is an agent that alters (e.g., enhances or inhibits) biological activity, function or concentration of a low HDL-C level affecting polypeptide and/or biological activity or function of low HDL-C level associated metabolic pathway as described herein. Useful therapeutic agents can alter a HDL-C associated polypeptide biological activity or function by a variety of means, such as, for example, by altering translation rate of a HDL-C associated polypeptide encoding mRNA; by altering the transcription rate of the HDL-C associated gene; by altering posttranslational processing of a HDL-C associated polypeptide; by interfering with a HDL-C associated polypeptide activity and/or function (e.g., by binding to a HDL-C associated polypeptide); by altering stability of a HDL-C associated polypeptide; by altering the transcription rate of splice variants of a HDL-C associated gene or by inhibiting or enhancing the elimination of a HDL-C associated polypeptide from target cells, organs and/or tissues.

Representative low HDL-C therapeutic agents comprise the following: (a) nucleic acids, fragments, variants or derivatives of HDL-C associated genes described in this invention, nucleic acids encoding a HDL-C associated polypeptide or an active fragment or a derivative thereof and nucleic acids modifying the expression of said low HDL-C associated genes (e.g. antisense polynucleotides, catalytically active polynucleotides (e.g. ribozymes and DNAzymes), molecules inducing RNA interference (RNAi and micro RNA), and vectors comprising said nucleic acids; (b) HDL-C associated polypeptides, active fragments, variants or derivatives thereof, binding agents of HDL-C associated polypeptides; peptidomimetics; fusion proteins or prodrugs thereof, antibodies (e.g., an antibody to a mutant HDL-C associated polypeptide, or an antibody to a non-mutant HDL-C associated polypeptide, or an antibody to a particular variant encoded by a HDL-C associated gene, as described above) and other polypeptides (e.g., HDL-C associated receptors, active fragments, variants or derivatives thereof); (c) metabolites of HDL-C associated polypeptides or derivatives thereof; (d) small molecules and compounds that alter (e.g., inhibit or antagonize, or activate or agonize) a HDL-C associated gene expression, activity and/or function of a HDL-C associated gene encoded polypeptide, or activity and/or function of a HDL-C associated gene related metabolic pathway and; (e) small molecules and compounds that alter (e.g. induce or agonize, or activate or antagonize) a HDL-C associated gene expression, activity and/or function of a HDL-C associated gene encoded polypeptide, or activity and/or function of a low HDL-C associated gene related metabolic pathway.

More than one low HDL-C therapeutic agent can be used concurrently, if desired. The therapy is designed to alter (e.g., inhibit or enhance), replace or supplement activity and/or function of a low HDL-C associated polypeptide or related metabolic pathway in an individual. For example, a low HDL-C therapeutic agent can be administered in order to upregulate or increase the expression or availability of a HDL-C associated gene or a specific variant of a HDL-C associated gene or, conversely, to downregulate or decrease the expression or availability of a HDL-C associated gene or a specific variant of a HDL-C associated gene. Upregulation or increasing expression or availability of a native HDL-C associated gene or a particular variant of a HDL-C associated gene could interfere with or compensate for the expression or activity of a defective gene or variant; downregulation or decreasing expression or availability of a native HDL-C associated gene or a particular splicing variant of a HDL-C associated gene could minimize the expression or activity of a defective gene or the particular variant and thereby minimize the impact of the defective gene or the particular variant.

The HDL-C increasing agent(s) are administered in a therapeutically effective amount (i.e., an amount that is sufficient to treat the low HDL-C trait or condition, such as by ameliorating symptoms associated with the low HDL-C trait or condition, preventing or delaying the onset of the low HDL-C trait or condition, and/or also lessening the severity or frequency of symptoms of the low HDL-C trait or condition). The amount which will be therapeutically effective in the treatment of a particular individual's disorder or condition will depend on the symptoms and severity of the low HDL-C trait or condition, and can be determined by standard clinical techniques. In addition, in vitro or in vivo assays may optionally be employed to help identify optimal dosage ranges. The precise dose to be employed in the formulation will also depend on the route of administration, and the seriousness of the trait or condition, and should be decided according to the judgment of a practitioner and each patient's circumstances. Effective doses may be extrapolated from dose-response curves derived from in vitro or animal model test systems.

In one embodiment, a nucleic acid of the invention (e.g., a nucleic acid encoding a HDL-C associated polypeptide, fragment, variant or derivative thereof), either by itself or included within a vector, can be introduced into cells of an individual affected by a low HDL-C using variety of experimental methods described in the art, so that the treated cells start to produce native HDL-C associated polypeptide. Thus, cells which, in nature, lack of a native HDL-C associated gene expression and activity, or have abnormal HDL-C associated gene expression and activity, can be engineered to express same HDL-C associated polypeptide or an active fragment or a different variant of said HDL-C associated polypeptide. Genetic engineering of cells may be done either “ex vivo” (i.e. suitable cells are isolated and purified from a patient and re-infused back to the patient after genetic engineering) or “in vivo” (i.e. genetic engineering is done directly to a tissue of a patient using a vehicle).

Alternatively, in another embodiment of the invention, a nucleic acid of the invention; a nucleic acid complementary to a nucleic acid of the invention; or a portion of such a nucleic acid (e.g., a polynucleotide), can be used in “antisense” therapy, in which a nucleic acid (e.g., a polynucleotide) which specifically hybridizes to the mRNA and/or genomic DNA of a HDL-C associated gene is administered in a pharmaceutical composition to the target cells or said nucleic acid is generated “in vivo”. The antisense nucleic acid that specifically hybridizes to the mRNA and/or DNA inhibits expression of the HDL-C associated polypeptide, e.g., by inhibiting translation and/or transcription. Binding of the antisense nucleic acid can be due to conventional base pairing, or, for example, in the case of binding to DNA duplexes, through specific interaction in the major groove of the double helix.

In a preferred embodiment nucleic acid therapeutic agents of the invention are delivered into cells that express a low HDL-C associated gene. A number of methods including, but not limited to, the methods known in the art can be used for delivering a nucleic acid to said cells. For example, a vector can be introduced in vivo such that it is taken up by a cell and directs the transcription of a RNA molecule, which induces RNA interference in the cell. Such a vector can remain episomal or become chromosomally integrated, and as long as it can be transcribed to produce the desired RNA molecules it will modify the expression of a HDL-C associated gene. Such vectors can be constructed by various recombinant DNA technology methods standard in the art.

The expression of an endogenous HDL-C associated gene can be also reduced by inactivating or “knocking out” a HDL-C associated gene or its promoter using targeted homologous recombination methods described in the art. Alternatively, expression of a functional, non-mutant HDL-C associated gene can be increased using a similar method: targeted homologous recombination can be used to replace a non-functional HDL-C associated gene with a functional form of the said gene in a cell.

In yet another embodiment of the invention, other low HDL-C therapeutic agents as described herein can also be used in the treatment or prevention of low HDL-C trait or condition. The therapeutic agents can be delivered in a pharmaceutical composition they can be administered systemically, or can be targeted to a particular tissue. The therapeutic agents can be produced by a variety of means, including chemical synthesis, cell culture and recombinant techniques (e.g. with transgenic cells and animals). Therapeutic agents can be isolated and purified to fulfil pharmaceutical requirements using standard methods described in the art.

A combination of any of the above methods of treatment (e.g., administration of non-mutant HDL-C associated polypeptide in conjunction with RNA molecules inducing RNA interference targeted to the mutant HDL-C associated mRNA) can also be used.

In the case of pharmaceutical therapy, the invention comprises compounds, which modulate the activity, function or concentration of one or more polypeptides encoded by HDL-C associated genes. The treatment may also enhance or reduce the expression of one or more genes selected from HDL-C associated genes set forth in tables 1, 8 and 9.

In another embodiment of the invention, pharmaceutical therapy of the invention comprises compounds, which enhance or reduce the activity and/or function of biological networks and/or metabolic pathways related to polypeptides encoded by HDL-C associated genes set forth in tables 1, 8 and 9. The treatment may also enhance or reduce the expression of one or several genes in biological networks and/or metabolic pathways related to said HDL-C associated genes set forth in tables 1, 8 and 9.

Furthermore, a disclosed method or a test based on HDL-C associated gene specific markers (e.g. polymorphic sites, expression or polypeptides) is useful in selecting drug therapy for patients with low HDL-C trait, and can be further used in the treatment of low HDL-C related diseases such as CVD, T2D, MBO and obesity. A gene test recognizing the low HDL-C associated allele homozygocity or carrier status of HDL-C associated genes set forth in tables 2 to 7 and 10 to 11 is useful in selecting prophylactic treatment for individuals having a high risk of a low HDL-C trait or condition.

Yet in another embodiment of the invention, a test or a method based on low HDL-C level associated gene specific biomarkers (e.g. polymorphic sites, expression products, polypeptides or metabolites) is useful in selecting subjects testing treatments for low HDL-C trait and/or conditions, such as CVD, T2D, MBO and obesity.

A test or a method of this invention based on low HDL-C level associated gene specific biomarkers (e.g. polymorphic sites, expression products, polypeptides or metabolites) is useful in selecting drug therapy for patients who might be at increased risk for adverse effects of drugs affecting HDL-C metabolism.

Pharmaceutical Compositions

The present invention also pertains to pharmaceutical compositions comprising agents described herein, particularly polynucleotides, polypeptides and any fractions, variants or derivatives of HDL-C associated genes set forth in tables 1, 8 and 9, and/or agents that alter (e.g., enhance or inhibit) expression of low HDL-C level associated gene or genes, or activity of one or more polypeptides encoded by HDL-C associated gene or genes as described herein. For instance, an agent that alters expression of HDL-C associated genes, or activity of one or more polypeptides encoded by low HDL-C associated genes or a low HDL-C associated polypeptide binding agent, binding partner, fragment, fusion protein or prodrug thereof, or polynucleotides of the present invention, can be formulated with a physiologically acceptable carrier or excipient to prepare a pharmaceutical composition. The carrier and composition can be sterile. The formulation should suit the mode of administration.

In a preferred embodiment pharmaceutical compositions comprise agent or agents reversing, at least partially, low HDL-C level associated changes in biological networks and/or metabolic pathways related to the HDL-C associated genes of this invention.

Suitable pharmaceutically acceptable carriers include but are not limited to water, salt solutions (e.g., NaCl), saline, buffered saline, alcohols, glycerol, ethanol, gum arabic, vegetable oils, benzyl alcohols, polyethylene glycols, gelatin, carbohydrates such as lactose, amylose or starch, dextrose, magnesium stearate, talc, silicic acid, viscous paraffin, perfume oil, fatty acid esters, hydroxymethylcellulose, polyvinyl pyrolidone, etc., as well as combinations thereof. The pharmaceutical preparations can, if desired, be mixed with auxiliary agents, e.g., lubricants, preservatives, stabilizers, wetting agents, emulsifiers, salts for influencing osmotic pressure, buffers, coloring, flavoring and/or aromatic substances and the like which do not deleteriously react with the active agents.

The composition, if desired, can also contain minor amounts of wetting or emulsifying agents, or pH buffering agents. The composition can be a liquid solution, suspension, emulsion, tablet, pill, capsule, sustained release formulation, or powder. The composition can be formulated as a suppository, with traditional binders and carriers such as triglycerides. Oral formulation can include standard carriers such as pharmaceutical grades of mannitol, lactose, starch, magnesium stearate, polyvinyl pyrolidone, sodium saccharine, cellulose, magnesium carbonate, etc.

Methods of introduction of these compositions include, but are not limited to, intradermal, intramuscular, intraperitoneal, intraocular, intravenous, subcutaneous, topical, oral and intranasal. Other suitable methods of introduction can also include gene therapy (as described below), rechargeable or biodegradable devices, particle acceleration devises (“gene guns”) and slow release polymeric devices. The pharmaceutical compositions of this invention can also be administered as part of a combinatorial therapy with other agents.

The composition can be formulated in accordance with the routine procedures as a pharmaceutical composition adapted for administration to human beings. For example, compositions for intravenous administration typically are solutions in sterile isotonic aqueous buffer. Where necessary, the composition may also include a solubilizing agent and a local anesthetic to ease pain at the site of the injection. Generally, the ingredients are supplied either separately or mixed together in unit dosage form, for example, as a dry lyophilized powder or water free concentrate in a hermetically sealed container such as an ampule or sachette indicating the quantity of active agent. Where the composition is to be administered by infusion, it can be dispensed with an infusion bottle containing sterile pharmaceutical grade water, saline or dextrose/water. Where the composition is administered by injection, an ampule of sterile water for injection or saline can be provided so that the ingredients may be mixed prior to administration.

For topical application, nonsprayable forms, viscous to semi-solid or solid forms comprising a carrier compatible with topical application and having a dynamic viscosity preferably greater than water, can be employed. Suitable formulations include but are not limited to solutions, suspensions, emulsions, creams, ointments, powders, enemas, lotions, sols, liniments, salves, aerosols, etc., which are, if desired, sterilized or mixed with auxiliary agents, e.g., preservatives, stabilizers, wetting agents, buffers or salts for influencing osmotic pressure, etc. The agent may be incorporated into a cosmetic formulation. For topical application, also suitable are sprayable aerosol preparations wherein the active ingredient, preferably in combination with a solid or liquid inert carrier material, is packaged in a squeeze bottle or in admixture with a pressurized volatile, normally gaseous propellant, e.g., pressurized air.

Agents described herein can be formulated as neutral or salt forms. Pharmaceutically acceptable salts include those formed with free amino groups such as those derived from hydrochloric, phosphoric, acetic, oxalic, tartaric acids, etc., and those formed with free carboxyl groups such as those derived from sodium, potassium, ammonium, calcium, ferric hydroxides, isopropylamine, triethylamine, 2-ethylamino ethanol, histidine, procaine, etc.

The agents are administered in a therapeutically effective amount. The amount of agents which will be therapeutically effective in the treatment of a particular disorder or condition will depend on the nature of the disorder or condition, and can be determined by standard clinical techniques. In addition, in vitro or in vivo assays may optionally be employed to help identify optimal dosage ranges. The precise dose to be employed in the formulation will also depend on the route of administration, and the seriousness of the symptoms of cardiovascular/metabolic disease, and should be decided according to the judgment of a practitioner and each patient's circumstances. Effective doses may be extrapolated from dose-response curves derived from in vitro or animal model test systems.

At-Risk Alleles and At-Risk Haplotypes

The genetic markers listed in tables 2 to 7 and 10 to 11 of this invention are particular “alleles” at “polymorphic sites” associated with low HDL-C (or low ApoA1). A nucleotide position, at which more than one sequence is possible in a population, is referred to herein as a “polymorphic site”. Where a polymorphic site is a single nucleotide in length, the site is referred to as a SNP. For example, if at a particular chromosomal location, one member of a population has an adenine and another member of the population has a thymine at the same position, then this position is a polymorphic site, and, more specifically, the polymorphic site is a SNP. Polymorphic sites may be several nucleotides in length due to insertions, deletions, conversions or translocations. Each version of the sequence with respect to the polymorphic site is referred to herein as an “allele” of the polymorphic site. Thus, in the previous example, the SNP allows for both an adenine allele and a thymine allele.

Typically, a reference nucleotide sequence is referred to for a particular gene. Alleles that differ from the reference are referred to as “variant” alleles. The polypeptide encoded by the reference nucleotide sequence is the “reference” polypeptide with a particular reference amino acid sequence, and polypeptides encoded by variant alleles are referred to as “variant” polypeptides with variant amino acid sequences.

Nucleotide sequence variants can result in changes affecting properties of a polypeptide. These sequence differences, when compared to a reference nucleotide sequence, include insertions, deletions, conversions and substitutions: e.g. an insertion, a deletion or a conversion may result in a frame shift generating an altered polypeptide; a substitution of at least one nucleotide may result in a premature stop codon, amino acid change or abnormal mRNA splicing; the deletion of several nucleotides, resulting in a deletion of one or more amino acids encoded by the nucleotides; the insertion of several nucleotides, such as by unequal recombination or gene conversion, resulting in an interruption of the coding sequence of a reading frame; duplication of all or a part of a sequence; transposition; or a rearrangement of a nucleotide sequence, as described in detail above. Such sequence changes alter the polypeptide encoded by a low HDL-C level associated gene described in this invention. For example, a nucleotide change resulting in a change in polypeptide sequence can alter the physiological properties of a polypeptide dramatically by resulting in altered activity, distribution and stability or otherwise affect on properties of a polypeptide.

Alternatively, nucleotide sequence variants can result in changes affecting transcription of a gene or translation of its mRNA. A polymorphic site located in a regulatory region of a gene may result in altered transcription of a gene e.g. due to altered tissue specificity, altered transcription rate or altered response to transcription factors. A polymorphic site located in a region corresponding to the mRNA of a gene may result in altered translation of the mRNA e.g. by inducing stable secondary structures to the mRNA and affecting the stability of the mRNA. Such sequence changes may alter the expression of a low HDL-C level associated gene of this invention.

A “haplotype”, as described herein, refers to any combination of genetic markers (“alleles”), such as those set forth in tables 4 and 7. A haplotype can comprise two or more alleles.

As it is recognized by those skilled in the art the same haplotype can be described differently by determining alleles from different strands e.g. the haplotype rs1872393, rs779744, rs779742, and rs3804900 (A A C C) is the same as haplotype rs1872393, rs779744, rs779742, and rs3804900 (T T G G) in which the alleles are determined from the other strand or haplotype rs1872393, rs779744, rs779742, and rs3804900 (T A C C), in which the first allele is determined from the other strand.

It is understood that the low HDL-C level associated alleles and haplotypes described in this invention may be associated with other “polymorphic sites” located in HDL-C associated genes of this invention. These other HDL-C associated polymorphic sites may be either equally useful as genetic markers or even more useful as causative variations explaining the observed association of at-risk alleles and at-risk haplotypes of this invention to low HDL-C.

In certain methods described herein, an individual who is at risk for low HDL-C is an individual in whom an at-risk allele or an at-risk haplotype is identified. In one embodiment, the at-risk allele or the at-risk haplotype is one that confers a significant risk of low HDL-C. In one embodiment, significance associated with an allele or a haplotype is measured by an odds ratio. In a further embodiment, the significance is measured by a percentage. In one embodiment, a significant risk is measured as odds ratio of at least about 1.2, including by not limited to: 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.2, 1.3, 1.4, 1.5, 1.6, 1.7, 1.8, 1.9, 2.0, 2.5, 3.0, 4.0, 5.0, 10.0, 15.0, 20.0, 25.0, 30.0 and 40.0. In a further embodiment, a significant increase or reduction in risk is at least about 20%, including but not limited to about 25%, 30%, 35%, 40%, 45%, 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95% and 98%. In a further embodiment, a significant increase in risk is at least about 50%. It is understood however, that identifying whether a risk is medically significant may also depend on a variety of factors, including the specific disease, the allele or the haplotype, and often, environmental factors.

An at-risk haplotype in, or comprising portions of, the low HDL-C associated gene, is one where the haplotype is more frequently present in an individual at risk for low HDL-C (affected), compared to the frequency of its presence in a healthy individual (control), and wherein the presence of the haplotype is indicative of low HDL-C or susceptibility to low HDL-C.

Primers, Probes and Nucleic Acid Molecules

“Probes” or “primers” are oligonucleotides that hybridize in a base-specific manner to a complementary strand of nucleic acid molecules. By “base specific manner” is meant that the two sequences must have a degree of nucleotide complementarity sufficient for the primer or probe to hybridize. Accordingly, the primer or probe sequence is not required to be perfectly complementary to the sequence of the template. Non-complementary bases or modified bases can be interspersed into the primer or probe, provided that base substitutions do not inhibit hybridization. The nucleic acid template may also include “non-specific priming sequences” or “nonspecific sequences” to which the primer or probe has varying degrees of complementarity. Such probes and primers include polypeptide nucleic acids (Nielsen P E et al, 1991).

A probe or a primer comprises a region of nucleic acid that hybridizes to at least about 15, for example about 20-25, and in certain embodiments about 40, 50 or 75, consecutive nucleotides of a nucleic acid of the invention, such as a nucleic acid comprising a contiguous nucleic acid sequence.

In preferred embodiments, a probe or primer comprises 100 or fewer nucleotides, in certain embodiments, from 6 to 50 nucleotides, for example, from 12 to 30 nucleotides. In other embodiments, the probe or primer is at least 70% identical to the contiguous nucleic acid sequence or to the complement of the contiguous nucleotide sequence, for example, at least 80% identical, in certain embodiments at least 90% identical, and in other embodiments at least 95% identical, or even capable of selectively hybridizing to the contiguous nucleic acid sequence or to the complement of the contiguous nucleotide sequence. Often, the probe or primer further comprises a label, e.g., radioisotope, fluorescent compound, enzyme, or enzyme co-factor.

Antisense nucleic acid molecules of the invention can be designed using the nucleotide sequences of low HDL-C level associated genes and/or their complementary sequences and constructed using chemical synthesis and enzymatic ligation reactions using procedures known in the art. For example, an antisense nucleic acid molecule (e.g., an antisense oligonucleotide) can be chemically synthesized using naturally occurring nucleotides or variously modified nucleotides designed to increase the biological stability of the molecules or to increase the physical stability of the duplex formed between the antisense and sense nucleic acids, e.g., phosphorothioate derivatives and acridine substituted nucleotides can be used. Alternatively, the antisense nucleic acid molecule can be produced biologically using an expression vector into which a nucleic acid molecule encoding a HDL-C related gene, a fragment or a variant thereof has been cloned in antisense orientation (i.e., RNA transcribed from the expression vector will be complementary to the transcribed RNA of a cardiovascular/metabolic diseases risk gene of interest).

Portions or fragments of the nucleotide sequences identified herein (and the corresponding complete gene sequences) can be used in numerous ways as polynucleotide reagents. For example, these sequences can be used to: (i) map their respective genes on a chromosome; and, thus, locate gene regions associated with genetic disease; (ii) identify an individual from a minute biological sample (tissue typing); and (iii) aid in forensic identification of a biological sample. Additionally, the nucleotide sequences of the invention can be used to identify and express recombinant polypeptides for analysis, characterization or therapeutic use, or as markers for tissues in which the corresponding polypeptide is expressed, either constitutively, during tissue differentiation, or in diseased states. The nucleic acid sequences can additionally be used as reagents in the screening and/or diagnostic assays described herein, and can also be included as components of kits (e.g., reagent kits) for use in the screening and/or diagnostic assays described herein.

Polyclonal and Monoclonal Antibodies

The invention comprises polyclonal and monoclonal antibodies that bind to polypeptides of the invention. The term “antibody” as used herein refers to immunoglobulin molecules and immunologically active portions of immunoglobulin molecules, i.e., molecules that contain a binding site that specifically binds to an epitope (antigen, antigenic determinant). An antibody molecule that specifically binds to a polypeptide of the invention is a molecule that binds to an epitope present in said polypeptide or a fragment thereof, but does not substantially bind other molecules in a sample, e.g., a biological sample, which naturally contains the polypeptide. Examples of immunologically active portions of immunoglobulin molecules include F(ab) and F(ab′).sub.2 fragments which can be generated by treating the antibody with an enzyme such as pepsin. Polyclonal and/or monoclonal antibodies that specifically bind one form of the gene product but not to the other form of the gene product are also provided. Antibodies are also provided, that bind a portion of either the variant or the reference gene product that contains the polymorphic site or sites. The term “monoclonal antibody” or “monoclonal antibody composition”, as used herein refers to a population of antibody molecules that are directed against a specific epitope and are produced either by a single clone of B cells or a single hybridoma cell line. A monoclonal antibody composition thus typically displays a single binding affinity for a particular polypeptide of the invention with which it immunoreacts.

Polyclonal antibodies can be prepared as known by those skilled in the art by immunizing a suitable subject with a desired immunogen, e.g., polypeptide of the invention or fragment thereof. The antibody titer in the immunized subject can be monitored over time by standard techniques, such as with an enzyme linked immunosorbent assay (ELISA) using immobilized polypeptide. If desired, the antibody molecules directed against the polypeptide can be isolated from the mammal (e.g., from the blood) and further purified by well-known techniques, such as protein A chromatography to obtain the IgG fraction. At an appropriate time after immunization, e.g., when the antibody titers are highest, antibody-producing cells can be obtained from the subject and used to prepare monoclonal antibodies by standard techniques, such as the hybridoma technique (Kohler G and Milstein C, 1975), the human B cell hybridoma technique (Kozbor D, 1982), the EBV-hybridoma technique (Cole S P et al, 1984), or trioma techniques (Hering S et al, 1988). To produce a hybridoma an immortal cell line (typically a myeloma) is fused to lymphocytes (typically splenocytes) from a mammal immunized with an immunogen as described above, and the culture supernatants of the resulting hybridoma cells are screened to identify a hybridoma producing a monoclonal antibody that binds a polypeptide of the invention.

Any of the many well known protocols used for fusing lymphocytes and immortalized cell lines can be applied for the purpose of generating a monoclonal antibody to a polypeptide of the invention (Bierer B et al, 2002). Moreover, the ordinarily skilled worker will appreciate that there are many variations of such methods that also would be useful. Alternative to preparing monoclonal antibody-secreting hybridomas, a monoclonal antibody to a polypeptide of the invention can be identified and isolated by screening a recombinant combinatorial immunoglobulin library (e.g., an antibody phage display library) with the polypeptide to thereby isolate immunoglobulin library members that bind the polypeptide (Hay B N 1992; Hayashi N et al, 1995; Griffiths A D et al, 1993; Huse W D et al, 1989). Kits for generating and screening phage display libraries are commercially available.

Additionally, recombinant antibodies, such as chimeric and humanized monoclonal antibodies, comprising both human and non-human portions, which can be made using standard recombinant DNA techniques, are within the scope of the invention. Such chimeric and humanized monoclonal antibodies can be produced by recombinant DNA techniques known in the art.

In general, antibodies of the invention (e.g., a monoclonal antibody) can be used to isolate a polypeptide of the invention by standard techniques, such as affinity chromatography or immunoprecipitation. An antibody specific for a polypeptide of the invention can facilitate the purification of a native polypeptide of the invention from biological materials, as well as the purification of recombinant form of a polypeptide of the invention from cultured cells (culture media or cells). Moreover, an antibody specific for a polypeptide of the invention can be used to detect the polypeptide (e.g., in a cellular lysate, cell supernatant, or tissue sample) in order to evaluate the abundance and pattern of expression of the polypeptide. Antibodies can be used diagnostically to monitor protein levels in tissue such as blood as part of a test predicting the susceptibility to cardiovascular/metabolic diseases or as part of a clinical testing procedure, e.g., to, for example, determine the efficacy of a given treatment regimen. Antibodies can be coupled to various enzymes, prosthetic groups, fluorescent materials, luminescent materials, bioluminescent materials, and radioactive materials to enhance detection. Examples of suitable enzymes include horseradish peroxidase, alkaline phosphatase, beta-galactosidase, or acetylcholinesterase; examples of suitable prosthetic group complexes include streptavidin/biotin and avidin/biotin; examples of suitable fluorescent materials include umbelliferone, fluorescein, fluorescein isothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansyl chloride or phycoerythrin; an example of a luminescent material includes luminol; examples of bioluminescent materials include luciferase, luciferin, and aequorin, and examples of suitable radioactive material include .sup.125I, 131I, 35S or 3H.

Diagnostic and Screening Assays

The probes, primers and antibodies described herein can be used in methods of selecting efficient and safe therapy for increasing HDL-C levels of a subject. For example biomarkers associated to the low HDL-C level associated genes of this invention can be assessed from a subject and therapy can be focused to genes having altered activity.

Determination of the nucleotides present in one or more of the low HDL-C associated SNP markers of this invention, as well as polymorphic sites associated with low HDL-C associated SNP markers of this invention, in an individual's nucleic acid can be done by any method or technique which can accurately determine nucleotides present in a polymorphic site. Numerous suitable methods have been described in the art (Kwok P Y, 2001; Syvanen A C, 2001), these methods include, but are not limited to, hybridization assays, ligation assays, primer extension assays, enzymatic cleavage assays, chemical cleavage assays and any combinations of these assays. The assays may or may not include PCR, solid phase step, a microarray, modified oligonucleotides, labeled probes or labeled nucleotides and the assay may be multiplex or singleplex. As it is obvious in the art the nucleotides present in a polymorphic site can be determined from either nucleic acid strand or from both strands.

Diagnostically the most useful polymorphic sites are those altering the polypeptide biological activity, function or concentration of a low HDL-C associated gene due to a frame shift; due to a premature stop codon, due to an amino acid change or due to abnormal mRNA splicing. Nucleotide changes resulting in a change in polypeptide sequence in many cases alter the physiological properties of a polypeptide by resulting in altered activity, distribution and stability or otherwise affect on properties of a polypeptide. Other diagnostically useful polymorphic sites are those affecting transcription of a low HDL-C associated genes or translation of it's mRNA due to altered tissue specificity, due to altered transcription rate, due to altered response to physiological status, due to altered translation efficiency of the mRNA and due to altered stability of the mRNA. Alterations in transcription can be assessed by a variety of methods described in the art, including e.g. hybridization methods, enzymatic cleavage assays, RT-PCR assays and microarrays. A test sample from an individual is collected and the alterations in the transcription of low HDL-C associated genes are assessed from the RNA present in the sample.

A test sample from an individual may be assessed for presence of alterations in the biological activity, function, concentration and/or structure of polypeptides encoded by low HDL-C associated genes set forth in tables 1, 8 and 9 by various methods known in the art e.g. by assays based on chromatography, spectroscopy, colorimetry, electrophoresis, isoelectric focusing, specific cleavage, immunologic techniques and measurement of biological activity as well as combinations of different assays. An “alteration” as used herein, refers to an alteration in expression or composition of a polypeptide of the test sample, as compared with the expression or composition in a control sample. A control sample is a sample that corresponds to the test sample (e.g., is from the same type of cells), and is from an individual who is not affected by low HDL-C.

Western blotting analysis, using an antibody as described above that specifically binds to a polypeptide encoded by a mutant HDL-C associated gene or an antibody that specifically binds to a polypeptide encoded by a non-mutant gene, or an antibody that specifically binds to a particular splicing variant encoded by a HDL-C associated gene can be used to identify the presence or absence in a test sample of a particular polypeptide encoded by a polymorphic or mutant HDL-C associated gene.

Methods of selecting efficient and safe therapy of this invention may further comprise a step of combining information concerning age, gender, the family history of low HDL-C, as well as CVD, diabetes and hypercholesterolemia or/and a medical history for those, and the medical history concerning HDL-C, smoking status, and waist-to-hip circumference ratio (cm/cm) of the subject. The detection method of the invention may also further comprise a step determining blood, serum or plasma cholesterol, HDL cholesterol, LDL cholesterol, triglyceride, ApoA1 and apolipoprotein B, fibrinogen, ferritin, transferrin receptor, C-reactive protein, serum or plasma insulin concentration.

EXAMPLE 1 KIHD Cohort Genotyping Study

Study Design

This invention is based on whole-genome association study approach, in which distributions or means of the phenotypic measurement (HDL and ApoAI) are compared across genotypes or patterns of genetic markers. The study subjects were a subset of a population-based study in East Finland, the KIHD (Salonen 1988). This work is based on 246 male participants in the KIHD study.

Study Population

The subjects were participants of the Kuopio Ischaemic Heart Disease Risk Factor Study (KIHD), which is an ongoing prospective population-based study designed to investigate risk factors for chronic diseases, including AMI, CHD, HT, stroke, T2D, MBO and obesity, among middle-aged men from East Finland. The study population was a random age-stratified sample of men living in Eastern Finland who were 42, 48, 54 or 60 years old at baseline examinations in 1984-1989. A total of 2682 men were examined in the baseline examinations during 1984-89. Data used here concerning serum HDL and apolipoprotein Al concentrations are from measurements at this baseline examination. The recruitment and examination of the subjects has been described previously in detail (Salonen J T 1988, WO02074230, WO03089638). The University of Kuopio and Kuopio University Hospital Ethics Committee approved the study. All participants gave their written informed consent. For this study, 246 male KIHD baseline participants and four female KIHD 11-year examination participants were selected.

The Measurement of HDL and Apolipoprotein AI

HDL fractions were separated from fresh serum by combined ultracentrifugation and precipitation (Salonen et al 1991, W003052129). The cholesterol contents of lipoprotein fractions and serum triglycerides were measured enzymatically. The mean HDL-C was 1.29 mmol/L, minimum 0.76 mmol/L, maximum 2.77 mmol/L and standard deviation 0.30 mmol/L.

Serum apolipoprotein AI concentrations were measured for 241 male subjects as described previously (Salonen et al 1992). The mean ApoAI was 1.33 mg/L, minimum 0.85 mg/L, maximum 2.50 mg/L and the SD 0.25 mg/L.

Genomic DNA Isolation and Quality Testing

High molecular weight genomic DNA samples were extracted from frozen venous whole blood using standard methods and dissolved in standard TE buffer. The quantity and purity of each DNA sample was evaluated by measuring the absorbance at 260 and 280 nm and integrity of isolated DNA samples were evaluated with 0,9% agarose gel electrophoresis and Ethidiumbromide staining. A sample was qualified for genome wide scan (GWS) analysis if A260/A280 ratio was ≧1.7 and average size of isolated DNA was over 20 kb in agarose gel electrophoresis. Before GWS analysis samples were diluted to concentration of 50 ng/μl in reduced EDTA TE buffer (TEKnova).

Genome-Wide Scan

Genotyping of SNP markers was performed by using the technology access version of Affymetrix GeneChip® human mapping 100k system. The assay consisted of two arrays, Xba and Hind, which were used to genotype over 126,000 SNP markers from each DNA sample. The assays were performed according to the instructions provided by the manufacturer. A total of 250 ng of genomic DNA was used for each individual assay. DNA sample was digested with either Xba I or Hind III enzyme (New England Biolabs, NEB) in the mixture of NE Buffer 2 (1×; NEB), bovine serum albumin (1×; NEB), and either Xba I or Hind III (0,5 U/μl; NEB) for 2 h at +37° C. followed by enzyme inactivation for 20 min at +70° C. Xba I or Hind III adapters were then ligated to the digested DNA samples by adding Xba or Hind III adapter (0,25 μM, Affymetrix), T4 DNA ligase buffer (1×; NEB), and T4 DNA ligase (250 U; NEB). Ligation reactions were allowed to proceed for 2 h at +16° C. followed by 20 min incubation at +70° C. Each ligated DNA sample was diluted with 75 μl of molecular biology-grade water (BioWhittaker Molecular Applications/Cambrex).

Diluted ligated DNA samples were subjected to four identical 100 μl volume polymerase chain reactions (PCR) by implementing a 10 μl aliquot of DNA sample with Pfx Amplification Buffer (1×; Invitrogen), PCR Enhancer (1×; Invitrogen), MgSO₄ (1 mM; Invitrogen), dNTP (300 μM each; Takara), PCR primer (1 μM; Affymetrix), and Pfx Polymerase (0,05 U/μl; Invitrogen). The PCR was allowed to proceed for 3 min at +94° C., followed by 30 cycles of 15 sec at +94° C., 30 sec at +60° C., 60 sec at +68° C., and finally for the final extension for 7 min at +68° C. The performance of the PCR was checked by standard 2% agarose gel electrophoresis in 1×TBE buffer for 1 h at 120V.

PCR products were purified according to Affymetrix manual using MinElute 96 UF PCR Purification kit (Qiagen) by combining all four PCR products of an individual sample into same purification reaction. The purified PCR products were eluted with 40 μl of EB buffer (Qiagen), and the yields of the products were measured at the absorbance 260 nm. A total of 40 μg of each PCR product was then subjected to fragmentation reaction consisting of 0,2 U/μl fragmentation reagent (Affymetrix) in 1×Fragmentation Buffer. Fragmentation reaction was allowed to proceed for 35 min at +37° C. followed by 15 min incubation at +95° C. for enzyme inactivation. Completeness of fragmentation was checked by running an aliquot of each fragmented PCR product in 4% agarose 1×TBE (BMA Reliant precast) for 30-45 min at 120V.

Fragmented PCR products were then labeled using 1×Terminal Deoxinucleotidyl Transferase (TdT) buffer (Affymetrix), GeneChip DNA Labeling Reagent (0,214 mM; Affymetrix), and TdT (1,5 U/μl; Affymetrix) for 2 h at +37° C. followed by 15 min at +95° C. Labeled DNA samples were combined with hybridization buffer consisting of 0,056 M MES solution (Sigma), 5% DMSO (Sigma), 2,5×Denhardt's solution (Sigma), 5,77 mM EDTA (Ambion), 0,115 mg/ml Herring Sperm DNA (Promega), 1×Oligonucleotide Control reagent (Affymetrix), 11,5 μg/ml Human Cot-1 (Invitrogen), 0,0115% Tween-20 (Pierce), and 2,69 M Tetramethyl Ammonium Chloride (Sigma). DNA-hybridization buffer mix was denatured for 10 min at +95° C., cooled on ice for 10 sec and incubated for 2 min at +48° C. prior to hybridization onto corresponding Xba or Hind GeneChip® array. Hybridization was completed at +48° C. for 16-18 h at 60 rpm in an Affymetrix GeneChip Hybridization Oven. Following hybridization, the arrays were stained and washed in GeneChip Fluidics Station 450 according to fluidics station protocol Mapping10Kv1_(—)450 as recommended by the manufacturer. Arrays were scanned with GeneChip 3000 Scanner and the genotype calls for each of the SNP markers on the array were generated using Affymetrix Genotyping Tools (GTT) software. The confidence score in SNP calling algorithm was adjusted to 0.20.

Initial SNP Selection for Statistical Analysis

Prior to the statistical analysis, SNP quality was assessed on the basis of three values: the call rate (CR), minor allele frequency (MAF), and Hardy-Weinberg equilibrium (H-W). The CR is the proportion of samples with successful genotyping result. It does not take into account whether the genotypes are correct or not. The call rate was calculated as: CR=number of samples with successful genotype call/total number of samples. The MAF is the frequency of the allele that is less frequent in the study sample. MAF was calculated as: MAF=min(p, q), where p is frequency of the SNP allele ‘A’ and q is frequency of the SNP allele ‘B’; p=(number of samples with “AA”-genotype+0.5*number of samples with “AB”-genotype)/total number of samples with successful genotype call; q=1−p. SNPs that are homozygous (MAF=0) can not be used in genetic analysis and were thus discarded. H-W equilibrium is tested for controls. The test is based on the standard Chi-square test of goodness of fit. The observed genotype distribution is compared with the expected genotype distribution under H-W equilibrium. For two alleles this distribution is p2, 2pq, and q2 for genotypes ‘AA’, ‘AB’ and ‘BB’, respectively. If the SNP is not in H-W equilibrium it can be due to genotyping error or some unknown population dynamics (e.g. random drift, selection). Only the SNPs that had CR>50%, MAF>1%, and were in H-W equilibrium (Chi-square test statistic<23.93) were used in the statistical analysis.

Statistical Methods

Single SNP Analysis

For each SNP, differences in the mean HDL-C and ApoA1 levels for two allele groups were tested with t-test. Similarly differences in the mean HDL-C and ApoA1 levels for each genotype group were tested with one-way analysis of variance (ANOVA, F-test). For t-test either equal (ttest1) or unequal (ttest2) variances were assumed. Tests that gave P-value less than 0.005 were considered statistically significant.

Haplotype Region Analysis: HaploRec+HPMQ

The data set was analyzed with a haplotype pattern mining algorithm HPMQ software that is based on the HPM software (Toivonen H T et al, 2000). For HPMQ software genotypes must have phase known i.e. to determine which alleles are coming from the mother and which from the father. Without family data phases must be estimated based on population data. We used the HaploRec-program (Eronen L et al, 2004) to estimate the phases. HPMQ is very fast and can handle a large number of SNPs in a single run

For phase-known data HPMQ finds all haplotype patterns that are in concordance with the phase configuration. The length of the haplotype patterns can vary. As an example, if there are four SNPs and an individual has alleles A T for the SNP1, C C for the SNP2, C G for the SNP3, and A C for the SNP4 then HPMQ considers haplotype patterns that are in concordance with estimated phase (done by HaploRec). If the estimated phase is ACGA (from the mother/father) and TCCC (from the father/mother) then HPMQ considers two patterns (of length 4 SNPs): ACGA and TCCC. For each haplotype pattern, a Z-test statistic is computed based on the difference in the mean value of a continuous trait between a group that has the haplotype pattern and the group that does not have the haplotype pattern. A SNP is scored based on the number of times it is included in a haplotype pattern that passes the threshold value set for the Z-test. Significance of the score values is tested based on permutation tests.

Several parameters can be modified in the HPMQ program including the Z-test threshold value (-x), the maximum haplotype pattern length (-l), the maximum number of wildcards that can be included in a haplotype pattern (-w), and the number of permutation test in order to estimate the P-value (-p). Wildcards allow gaps in haplotypes. HPMQ was run with the following parameter settings: haplotype analysis with 5 SNPs (-x4-l5-w1-p10000). Haplotype genomic regions that gave P-value less than 0.005 were considered statistically significant.

Multivariate Analyses

Partial associations of SNPs with HDL-C and ApoAI, adjusted for all independent variables entering the model, were estimated by using the least squares regression analysis. SPSS for Windows 13.0 software was used.

Definition of Terms used in the Haplotype Analysis Results

The term “haplotype genomic region” or “haplotype region” refers to a genomic region that has been found significant in the haplotype analysis (HPMQ or similar statistical method/program). The haplotype region in this patent is defined as a sub-region of the pre-selected genomic region where for any SNP the permutated P-value is less or equal than 0.005.

Findings of the KIHD Cohort Study

Tables 2, 3 and 4 show the SNP markers with the strongest association with serum HDL-C concentration. SNP physical position is according to NCBI Human Genome Build 35.1. Gene locus is as reported by NCBI dbSNP database build 124.

Table 2 presents results from t-tests, in which equal variances between groups are assumed and p value is less than 0.005. The genes with intragenic markers with the strongest associations with serum HDL-C were ANGPT1, EFHA1, UNC13C, TULP4, ARFRP2, FLJ10099, CNNM2, DOK5L, SGCG, SNAP25, ZFPM2, SERPINA5, 13CDNA73, PHACTR1, NT5C2, DGKB, LOC283553, LTBP1, and MSR1.

In table 3 results from F-test (one-way ANOVA test) are summarized. P value of less than 0.005 is the significance limit.

Table 4 presents the most significant haplotype regions associated with HDL-C level based on HaploRec+HPMQ analysis. The strongest genes with an association with HDL-C P of less than 0.0005 were ANGPT1, HNRPD, LOC391672, CNGB3, MAPK8, LOC399763, LOC442115, GRIM1, ABCD3 AND SGCG.

Tables 5, 6, and 7 present corresponding results for SNP markers with the strongest association with serum ApoA1 levels. SNP physical position is according to NCBI Human Genome Build 35.1. Gene locus is as reported by NCBI dbSNP database build 124.

Table 5 presents results from t-tests, in which equal variances between groups are assumed and p value is less than 0.005.

In table 6 results from F-test (one-way ANOVA test) are summarized. P value of less than 0.005 is the significance limit.

Table 7 shows the most significant haplotype regions for ApoA1 based on HaploRec+HPM analysis.

Table 8 lists all genes, which were associated with HDL-C level in the pointwise and haplotype analyses (Tables 2, 3 and 4). Gene names are according to HUGO Gene Nomenclature Committee (HGNC).

Table 9 lists all genes, which were associated with ApoA1 level in pointwise and haplotype analyses (Tables 5, 6 and 7). Gene names are according to HUGO Gene Nomenclature Committee (HGNC).

Table 10 shows a linear regression model of the best HDL-C level predictive SNPs and genes.

Table 11 presents a linear regression model of the best ApoA1 level predictive SNPs and genes.

EXAMPLE 2 Low HDL-C Gene Replication Study

The replication study was based on HDL-C and genotype data of Jurilab's type 2 diabetes studies (SOHFA, GEDINO and DiaGen studies).

East Finnish (EF) Study Subjects

The study subjects (201 T2D cases and 200 healthy T2D-free controls) were participants of the SOHFA and GEDINO studies. SOHFA is a contractual study, in which the University of Kuopio is the contractee. “GEDINO” (Genetics of type 2 diabetes in North Savo) is a similar contractual project, in which the T2D cases and controls were collected by using a newspaper advertisement.

The cases had T2D and family history of T2D. All T2D cases (probands) had at least one additional affected relative, who was a parent, sibling or offspring of the proband. Most of them had more than one additional affected family member. The controls had neither T2D nor family history of T2D. The fasting blood glucose of the controls was 5.5 mmol/L or less and the glycated hemoglobin 5.5% or less.

Age and tobacco smoking were recorded on a self-administered questionnaire checked by an interviewer. HDL fractions were separated from fresh serum by combined ultracentrifugation and precipitation. The cholesterol contents of lipoprotein fractions and serum triglycerides were measured enzymatically. Both systolic and diastolic BPs were measured in the morning by a nurse with a mercury sphygmomanometer. The measuring protocol included three measurements in standing position with 5-minute intervals. The mean of all three measurements were used as SBP and DBP. Body mass index (BM) was computed as the ratio of weight to the square of height (kg/m²). Waist-to-hip ratio (WHR) was calculated as the ratio of waist circumference (average of one measure taken after inspiration and one taken after expiration at the midpoint between the lowest rib and the iliac crest) to hip circumference (measured at the level of the trochanter major).

The mean age of the cases was 64 years and that of the controls 67 years. Some cases had very low blood glucose, since they had hypoglycemic medication. In spite of this, the average blood glucose and glycated hemoglobin of the cases were higher than that of the controls. Since there was no matching according to obesity, the cases were on the average more obese than the controls.

Ashkenazi Jewish (AJ) Study Subjects

Subjects included in the study were collected in Israel by the physicians in charge in specialized clinics. Subjects were diagnosed with Type II Diabetes Mellitus according to the etiologic classification of Diabetes Mellitus proposed by the International Expert Committee under the sponsorship of the American Diabetes Association on May 1997. We included in the study 200 subjects (82 males and 118 females, mean age 64), each with 3 or more blood relatives of second degree or closer, suffering from T2D.

Matching 200 healthy control subjects (82 males and 118 females, mean age 74) were collected from the Israeli blood bank and elderly patients visiting general practitioners clinics. All subjects were of Ashkenazi Jewish origin. The study was approved by the appropriate ethics committees and participants had signed informed consent forms.

German (GE) and English (UK) Study Subjects

In Germany, cases were sampled from T2D patients from the Hospital of Diabetes and Metabolic Diseases (Karlsburg, Germany) and the diabetes dispensary unit of the Department of Endocrinology of the Ernst-Moritz-Arndt University (Greifswald, Germany). The controls were sampled from the non-diabetic examinees of the population based SHIP study cohort (Luedemann et al 2002). Total of 49 cases (24 females and 25 males) and 50 matched healthy controls (24 females and 26 males) from Germany were included in the study.

From England total of 50 cases (31 females and 19 males) and 50 matched healthy controls (31 females and 19 males) were included in the study. The controls were selected from the examinees of the Age and Cognitive Performance Research Centres (ACPRC) volunteer panel, a group of over 6000 older adults who have been previously described in detail (Rabbitt et al, 2004). A cohort of approximately 2000 of these individuals has DNA archived in the Dyne-Steel DNA bank. A group of 456 of these volunteers, residents of Greater Manchester, had previously taken part in a research study in 2001 which included medical history, including that of Diabetes Mellitus, and measurement of HbA_(1C). From the original cohort of 456, a sample of 50 individuals was identified to sex match diabetic cases from Manchester. Each individual had an HbA_(1C) below 5.5% and at telephone interview of family diabetes mellitus history in 2006, reported no evidence of diabetes mellitus in parents or siblings. The University of Manchester research ethics committee approved the study and each individual completed an individual form of consent.

Study Subjects used to Replicate Low HDL-C Level Associated Genes

The replication was based on combined data set with 401 participants from the East Finland population, 98 participants from the German population and 85 participants from the UK population and using HDL as a quantitative trait. In addition to quantitative trait analysis, HDL was also categorized into two classes: normal: HDL>1.55 mmol/l and low: HDL<0.9 mmol/l. The combined data set of 292 participants included 145 participants from EF, 56 participants from Ashkenazi Jew population from Israel, 50 participants from GE, and 41 participants from UK.

Genotyping with Illumina's Sentrix HumanHap300

DNA isolation of cases and controls were done as described in example 1. The whole-genome genotyping of the DNA samples was performed by using Illumina's Sentrix HumanHap300 BeadChips and Infinium II genotyping assay. The HumanHap300 BeadChip contained over 317,000 tag SNPs markers derived from the International HapMap Project. TagSNPs are loci that can serve as proxies for many other SNPs. The use of tagSNPs greatly improves the power of association studies as only a subset of loci needs to be genotyped while maintaining the same information and power as if one had genotyped a larger number of SNPs.

The Infinium II genotyping with the HumanHap300 BeadChipassays was performed according to the “Single-Sample BeadChip Manual process” described in detail in “Infinium™ II Assay System Manual” provided by Illumina (San Diego, Calif., USA). Briefly, 750 ng of genomic DNA from a sample was subjected to whole-genome amplification. The amplified DNA was fragmented, precipitated and resuspended to hybridization buffer. The resuspended sample was heat denatured and then applied to one Sentrix HumanHap300 beadchip. After overnight hybridization mis- and non-hybridized DNA was washed away from the BeadChip and allele-specific single-base extension of the oligos on the BeadChip was performed in a Tecan GenePaint rack, using labeled deoxynucleotides and the captured DNA as a template. After staining of the extended DNA, the BeadChips were washed and scanned with the BeadArray Reader (Illumina) and genotypes from samples were called by using the BeadStudio software (Illumina).

Statistical Analyses

HDL as a quantitative trait was analysed from combined data set of 401 participants from the East Finland population, 98 participants from the German population and 85 participants from the UK population. The data set was analyzed with the R-programming language using a linear model of lm(z˜w+r+t+P), where for one individual z is a HDL measurement, w is a genotype, r is a T2D status, t is a gender, and P is indicating the population the individual is originating (either 1=EF, 2=AJ, 3=GE, 4=UK). Three different genotypic models were tested: an additive model where w can have three values e.g. 0=AA, 1=AG and 2=GG; a dominance model where w can have two values e.g. 0=AA, 1=AG or GG; and a recessive model where w can have two values e.g. 0=AA or AG and 1=GG.

In addition to quantitative trait analysis, HDL was also categorized into two classes: normal: HDL>1.55 mmol/l and low: HDL<0.9 mmol/l. The combined data set of 292 participants included 145 participants from EF, 56 participants from Ashkenazi Jew population (AJ) from Israel, 50 participants from GE, and 41 participants from UK. The statistical model used in the R-programming language was glm(z˜w+r+t+P,family=binomial(link=logit)), where z, w, r, t, and P are as above.

Replicating HDL-C Associated Genes

The HDL-C level associated genes which were discovered in Example 1 (fisted in Table 8.) and which replicated in combined SOHFA, GEDINO and DiaGen study data set are presented in table 1. TABLE 1 List of genes that were first found with a data set of 246 male participants in the KIHD study and replicated with a combined data set of 401 participants from the East Finland (EF) population, 98 participants from the German (GE) population and 85 participants from the UK (UK) population and using HDL as a quantitative trait or using a classified trait (class 1: HDL > 1.55 mmol/l, class 2: HDL < 0.9 mmol/l) and a combined data set of 292 paticipants: EF (145 participants), Ashkenazi Jews from Israel (56 participants), GE (50 participants), and UK (41 participants). Gene Gene_id Chr P-value1 P-value2 DLG2 1740 11 7.85E−04 7.39E−06 SLC9A9 285195 3 3.45E−03 9.32E−06 LRRN6C 158038 9 3.36E−03 2.60E−05 AMPH 273 7 1.48E−03 5.15E−05 CACNA1E 777 1 7.09E−04 5.87E−05 BCL2 596 18 2.06E−03 6.01E−05 FMN2 56776 1 1.32E−03 7.80E−05 GALNTL4 374378 11 1.38E−02 9.13E−05 CSMD1 64478 8 2.07E−03 1.10E−04 DMD 1756 X 2.91E−04 1.18E−04 PRKG1 5592 10 6.15E−04 1.56E−04 HSPC117 51493 22 3.02E−03 1.57E−04 AAA1 404744 7 1.41E−03 1.86E−04 TEC 7006 4 3.55E−03 2.21E−04 CDH13 1012 16 4.17E−03 2.33E−04 WWOX 51741 16 4.03E−03 2.41E−04 ANK3 288 10 1.15E−03 2.43E−04 TMEFF2 23671 2 3.76E−03 2.60E−04 TMCC2 9911 1 1.41E−02 2.76E−04 CUBN 8029 10 8.77E−04 2.77E−04 KIAA0774 23281 13 4.74E−03 3.05E−04 RAPGEF4 11069 2 1.85E−03 3.70E−04 PTPRT 11122 20 1.69E−03 3.85E−04 DGKB 1607 7 1.73E−03 4.49E−04 POU6F2 11281 7 2.44E−03 4.70E−04 GRM7 2917 3 3.81E−03 4.77E−04 NAV3 89795 12 4.28E−03 4.79E−04 C12orf26 84190 12 1.40E−03 4.92E−04 FSTL4 23105 5 3.58E−03 5.00E−04 MAGI2 9863 7 1.91E−06 5.42E−04 LRP1B 53353 2 1.25E−03 5.62E−04 CNTN5 53942 11 1.91E−03 5.76E−04 RORA 6095 15 5.06E−04 6.04E−04 NAALADL2 254827 3 4.08E−04 6.64E−04 VGCNL1 259232 13 7.53E−04 7.22E−04 NTN1 9423 17 3.31E−04 7.49E−04 PAPPA2 60676 1 3.78E−03 7.84E−04 NFIA 4774 1 2.80E−03 7.89E−04 COL25A1 84570 4 1.73E−03 7.90E−04 C10orf107 219621 10 1.11E−03 8.01E−04 NTRK2 4915 9 8.20E−03 8.42E−04 KCNQ5 56479 6 2.20E−03 8.80E−04 ARL15 54622 5 3.45E−05 9.40E−04 TCBA1 154215 6 4.05E−03 9.59E−04 FLJ33708 285780 6 4.08E−06 Flanking GALC 2581 14 3.17E−05 Flanking LOC644954 644954 10 6.68E−05 Flanking SPATA4 132851 4 3.52E−04 Flanking APLP2 334 11 7.24E−04 Flanking E2F2 1870 1 8.90E−04 Flanking LOC653748 653748 7 9.00E−04 Flanking DKFZP566M1046 84067 11 1.16E−03 Flanking C10orf112 340895 10 1.21E−03 Flanking GPC6 10082 13 1.67E−03 Flanking PLEKHA7 144100 11 1.85E−03 Flanking RIPK5 25778 1 2.00E−03 Flanking CRSP8 9442 9 2.19E−03 Flanking LOC646697 646697 4 2.19E−03 Flanking DTNA 1837 18 3.02E−03 Flanking C20orf133 140733 20 3.44E−03 Flanking KIAA0746 23231 4 3.55E−03 Flanking ZNF659 79750 3 3.77E−03 Flanking DDAH1 23576 1 4.02E−03 Flanking SYNE1 23345 6 4.05E−03 Flanking FBXO33 254170 14 4.40E−03 Flanking RGS3 5998 9 4.42E−03 Flanking PALLD 23022 4 4.53E−03 Flanking ZBTB20 26137 3 4.98E−03 Flanking ROR1 4919 1 5.32E−03 Flanking Flanking: gene is 100kb from the snp that has a P-value < 0.001 in the replication study.

TABLE 2 SNP markers with P-value less than 0.005 for HDL from t-test assuming equal variaces between groups. Number of observations are marked by n1 and n2 and group avarages by avg1 and avg2. RS_id SEQ_ID_no Gene Gene_id Chr Position n1 avg1 n2 avg2 ttest df P-value RS2195989 872 ANGPT1 284 8 108555088 71 1.46 409 1.27 4.78 478 2.34E−06 RS1480145 796 8 16181494 488 1.29 12 1.67 4.42 498 1.21E−05 RS2029259 484 4 188422292 437 1.28 57 1.46 4.42 492 1.22E−05 RS10503573 780 MSR1 4481 8 16047855 486 1.29 14 1.63 4.25 498 2.55E−05 RS4631686 3 1 14322780 482 1.29 8 1.74 4.22 488 2.91E−05 RS250387 518 ARL15 54622 5 53620394 411 1.27 83 1.42 4.18 492 3.45E−05 RS1851006 1278 UNC13C 440279 15 52691684 156 1.22 212 1.35 4.09 366 5.31E−05 RS10503586 803 8 16792998 476 1.29 12 1.65 4.05 486 5.96E−05 RS397618 1063 TMEM16C 63982 11 26546754 486 1.29 14 1.61 4.01 498 7.00E−05 RS285406 855 8 87094129 478 1.29 22 1.55 3.99 498 7.60E−05 RS2854946 1259 SERPINA5 5104 14 94118132 335 1.26 93 1.4 3.94 426 9.52E−05 RS33375 598 5 170998718 407 1.28 61 1.44 3.92 466 1.02E−04 RS10516673 370 HNRPD 3184 4 83635972 487 1.29 13 1.62 3.91 498 1.05E−04 RS4770403 1173 SGCG 6445 13 22653127 448 1.28 52 1.45 3.88 498 1.18E−04 RS9315157 1181 13CDNA73 10129 13 31642352 435 1.28 61 1.43 3.88 494 1.19E−04 RS346421 527 5 62565739 447 1.28 47 1.46 3.86 492 1.29E−04 RS6990997 867 ZFPM2 23414 8 106881703 443 1.28 51 1.45 3.86 492 1.29E−04 RS2170116 791 8 16157007 481 1.29 19 1.56 3.85 498 1.34E−04 RS3770899 163 CRIM1 51232 2 36566423 454 1.29 36 1.49 3.84 488 1.39E−04 RS341148 696 TULP4 56995 6 158810407 251 1.33 105 1.2 3.85 354 1.40E−04 RS10517562 436 4 153393348 164 1.22 328 1.33 3.81 490 1.57E−04 RS1226489 634 GPR110 266977 6 47100017 478 1.29 10 1.65 3.81 486 1.57E−04 RS10506790 1141 12 77762475 456 1.28 44 1.46 3.8 498 1.63E−04 RS10482871 1439 21 15700259 495 1.29 5 1.8 3.8 498 1.63E−04 RS10503572 789 8 16131101 491 1.29 5 1.81 3.8 494 1.63E−04 RS9299445 993 LOC644954 644954 10 63244794 446 1.28 40 1.47 3.8 484 1.63E−04 RS10520350 472 4 177769342 478 1.28 20 1.54 3.79 496 1.69E−04 RS965158 868 8 107564094 489 1.29 11 1.64 3.78 498 1.76E−04 RS539254 836 8 80079448 343 1.28 91 1.41 3.74 432 2.09E−04 RS10488888 395 4 111641312 490 1.29 8 1.69 3.72 496 2.22E−04 RS2277456 1238 PYGL 5836 14 50447627 390 1.28 34 1.48 3.72 422 2.26E−04 RS250388 519 ARL15 54622 5 53621019 423 1.27 65 1.42 3.71 486 2.31E−04 RS10485111 681 6 116299831 428 1.28 64 1.42 3.7 490 2.40E−04 RS1577879 34 1 80924966 385 1.28 89 1.41 3.67 472 2.70E−04 RS10512405 927 SVEP1 79987 9 110316352 308 1.28 92 1.42 3.65 398 2.97E−04 RS439269 897 9 14481347 440 1.28 58 1.43 3.63 496 3.13E−04 RS1044045 1167 EFHA1 221154 13 20965072 398 1.33 86 1.19 3.63 482 3.14E−04 RS2056247 1092 11 93315872 406 1.27 94 1.4 3.62 498 3.25E−04 RS9312592 462 SPATA4 132851 4 177493018 60 1.43 408 1.28 3.6 466 3.52E−04 RS9299446 994 LOC644954 644954 10 63244886 457 1.28 43 1.45 3.59 498 3.63E−04 RS1407466 889 9 7958548 403 1.27 93 1.4 3.58 494 3.78E−04 RS9316436 1168 EFHA1 221154 13 21000655 424 1.32 68 1.18 3.58 490 3.78E−04 RS362988 1422 SNAP25 6616 20 10229370 242 1.34 196 1.24 3.58 436 3.82E−04 RS1942578 1402 18 73322001 279 1.33 211 1.24 3.57 488 3.92E−04 RS4611835 313 NAALADL2 254827 3 176610777 459 1.29 23 1.52 3.56 480 4.08E−04 RS340686 500 5 8440200 107 1.21 391 1.32 3.54 496 4.38E−04 RS1905155 556 5 113301097 313 1.32 141 1.21 3.54 452 4.42E−04 RS10513319 952 9 117781003 482 1.29 16 1.56 3.53 496 4.54E−04 RS1502887 358 FRAS1 80144 4 79340562 455 1.29 41 1.46 3.52 494 4.71E−04 RS723043 157 LTBP1 4052 2 33453438 255 1.25 189 1.35 3.51 442 4.94E−04 RS2414689 1285 RORA 6095 15 59051547 79 1.38 195 1.25 3.52 272 5.06E−04 RS10509764 1013 CNNM2 54805 10 104766465 348 1.33 150 1.23 3.5 496 5.07E−04 RS8049647 1310 16 50695297 408 1.28 90 1.4 3.5 496 5.07E−04 RS6954679 728 7 62940814 452 1.28 44 1.45 3.5 494 5.07E−04 RS2222654 430 4 137363666 198 1.35 244 1.25 3.5 440 5.13E−04 RS295525 525 5 60508623 487 1.29 13 1.58 3.49 498 5.26E−04 RS10514844 1182 13 37808480 489 1.29 7 1.69 3.49 494 5.26E−04 RS10504709 848 8 80781919 118 1.39 372 1.27 3.49 488 5.27E−04 RS295577 524 mimitin 91942 5 60457592 472 1.29 14 1.57 3.48 484 5.47E−04 RS340680 499 5 8438180 100 1.21 384 1.32 3.48 482 5.47E−04 RS2034022 1396 DOK6 220164 18 65341066 307 1.34 177 1.24 3.48 482 5.47E−04 RS3218491 753 XRCC2 7516 7 151791396 482 1.29 6 1.72 3.47 486 5.67E−04 RS1433450 1293 15 85342066 450 1.31 46 1.15 3.46 494 5.87E−04 RS6741304 175 LOC400954 400954 2 55099846 336 1.26 152 1.37 3.46 486 5.88E−04 RS745708 976 FRMPD2 143162 10 49115681 363 1.27 79 1.39 3.46 440 5.93E−04 RS2254162 774 8 14632707 278 1.27 76 1.39 3.46 352 6.07E−04 RS1490125 651 6 66451580 428 1.32 66 1.18 3.45 492 6.09E−04 RS1452528 670 6 79155079 247 1.34 241 1.25 3.45 486 6.09E−04 RS7738834 671 6 79215706 260 1.33 132 1.22 3.45 390 6.22E−04 RS2333821 170 LOC646790 646790 2 44288177 330 1.27 146 1.37 3.44 474 6.33E−04 RS2785949 1195 13 53806676 327 1.27 141 1.37 3.44 466 6.34E−04 RS2110556 704 7 7556827 160 1.36 230 1.26 3.44 388 6.45E−04 RS4733224 817 WRN 7486 8 31086911 280 1.25 182 1.35 3.42 460 6.82E−04 RS10500783 1049 11 13530190 444 1.28 52 1.43 3.41 494 7.03E−04 RS1607664 1410 ZNF429 353088 19 21497820 396 1.27 90 1.39 3.41 484 7.04E−04 RS1935229 1 CAMTA1 23261 1 7695267 463 1.29 33 1.47 3.4 494 7.28E−04 RS2127258 566 5 117512842 451 1.28 45 1.44 3.4 494 7.28E−04 RS6699989 44 1 87784403 80 1.4 412 1.28 3.4 490 7.29E−04 RS2357344 1242 SYNE2 23224 14 63578006 404 1.27 36 1.45 3.4 438 7.36E−04 RS2863171 1074 11 45207308 51 1.44 385 1.29 3.4 434 7.36E−04 RS2405708 428 4 137339327 169 1.36 231 1.25 3.4 398 7.42E−04 RS979323 1248 14 84118710 275 1.26 185 1.36 3.39 458 7.59E−04 RS1025927 831 TRPA1 8989 8 73125689 469 1.29 29 1.48 3.38 496 7.82E−04 RS10509161 996 LOC644954 644954 10 63245347 454 1.28 38 1.46 3.38 490 7.83E−04 RS4146127 350 4 59260295 408 1.28 80 1.4 3.38 486 7.83E−04 RS4510935 945 9 117364905 424 1.28 74 1.41 3.37 496 8.10E−04 RS10490025 235 KIAA1843 84540 2 210558906 456 1.29 36 1.46 3.37 490 8.11E−04 RS10517618 439 4 156628360 327 1.26 131 1.36 3.37 456 8.16E−04 RS1226491 633 GPR110 266977 6 47097807 486 1.29 14 1.56 3.36 498 8.39E−04 RS1544589 733 PTPN12 5782 7 76874004 226 1.35 274 1.26 3.36 498 8.39E−04 RS10513301 943 ASTN2 23245 9 117241331 414 1.28 82 1.4 3.35 494 8.70E−04 RS719484 1228 14 26547587 408 1.28 74 1.41 3.35 480 8.72E−04 RS198278 711 7 24021433 233 1.24 243 1.33 3.35 474 8.73E−04 RS3800818 730 FLJ10099 55069 7 65865293 408 1.32 58 1.17 3.35 464 8.74E−04 RS7087360 966 CUBN 8029 10 16912343 426 1.28 22 1.5 3.35 446 8.77E−04 RS967220 264 3 29275054 72 1.19 348 1.33 3.35 418 8.81E−04 RS596255 837 8 80164544 355 1.27 141 1.37 3.34 494 9.01E−04 RS717806 160 2 36487186 358 1.27 122 1.37 3.34 478 9.03E−04 RS868691 971 10 25945882 448 1.28 32 1.47 3.33 478 9.36E−04 RS1424963 174 2 53360168 56 1.44 378 1.29 3.33 432 9.43E−04 RS4890429 1387 RIT2 6014 18 38951479 352 1.27 138 1.37 3.32 488 9.68E−04 RS1541503 703 LOC285929 285929 7 7173834 440 1.28 42 1.44 3.32 480 9.69E−04 RS1867584 985 10 49321355 196 1.36 254 1.26 3.32 448 9.74E−04 RS10500986 1053 LUZP2 338645 11 24592114 363 1.28 95 1.39 3.31 456 1.01E−03 RS10505540 882 CCDC23 137196 8 130592619 479 1.29 21 1.51 3.3 498 1.04E−03 RS4646981 1106 NCAM1 4684 11 112596015 488 1.29 10 1.61 3.3 496 1.04E−03 RS10507082 1148 12 96255332 107 1.21 371 1.32 3.3 476 1.04E−03 RS10495202 115 LOC644053 644053 1 219385670 382 1.27 118 1.38 3.29 498 1.07E−03 RS171785 596 5 170994432 174 1.35 322 1.26 3.29 494 1.07E−03 RS725500 364 4 80236951 384 1.31 106 1.21 3.29 488 1.07E−03 RS1565741 804 8 16799856 431 1.28 59 1.42 3.29 488 1.07E−03 RS717694 442 4 156772800 104 1.21 380 1.32 3.29 482 1.08E−03 RS9312013 260 3 8299589 457 1.29 11 1.6 3.29 466 1.08E−03 RS10509158 990 C10orf107 219621 10 63177675 396 1.28 88 1.4 3.28 482 1.11E−03 RS1813404 1246 14 84116590 329 1.26 147 1.36 3.28 474 1.11E−03 RS1252225 854 LOC138046 138046 8 85677664 292 1.27 102 1.38 3.28 392 1.13E−03 RS10516142 601 FLT4 2324 5 180003769 492 1.29 8 1.64 3.27 498 1.15E−03 RS9284617 361 FRAS1 80144 4 79349747 457 1.28 41 1.45 3.27 496 1.15E−03 RS10517616 441 4 156733549 335 1.33 163 1.23 3.27 496 1.15E−03 RS7706518 576 5 127308921 450 1.28 48 1.43 3.27 496 1.15E−03 RS7718000 551 5 112998258 487 1.29 5 1.74 3.27 490 1.15E−03 RS3890717 114 1 217860308 214 1.35 276 1.26 3.27 488 1.15E−03 RS896990 251 MGC42174 129563 2 232714361 437 1.29 47 1.44 3.27 482 1.15E−03 RS10498121 242 2 222353045 460 1.29 22 1.5 3.27 480 1.15E−03 RS10500660 1038 DKFZP566M1046 84067 11 6199970 363 1.27 103 1.38 3.27 464 1.16E−03 RS10489027 392 4 109645336 322 1.27 136 1.38 3.27 456 1.16E−03 RS989177 748 7 124006837 70 1.41 358 1.27 3.26 426 1.20E−03 RS2362932 120 SMYD3 64754 1 242240325 141 1.38 273 1.28 3.26 412 1.21E−03 RS4934799 972 10 36577492 378 1.32 122 1.22 3.25 498 1.23E−03 RS10513299 941 ASTN2 23245 9 117184531 428 1.28 64 1.41 3.25 490 1.23E−03 RS6856098 331 PCDH7 5099 4 30797074 393 1.28 97 1.38 3.25 488 1.23E−03 RS722569 963 10 10538667 201 1.25 289 1.34 3.25 488 1.23E−03 RS1385775 206 LRP1B 53353 2 141112833 195 1.33 223 1.25 3.25 416 1.25E−03 RS1156968 1233 14 38232538 439 1.28 57 1.42 3.24 494 1.28E−03 RS10509448 1005 NRG3 10718 10 83972610 449 1.29 21 1.51 3.24 468 1.28E−03 RS666941 240 2 221567963 262 1.33 206 1.24 3.24 466 1.28E−03 RS1428250 508 5 38252169 450 1.29 14 1.55 3.24 462 1.28E−03 RS10509160 995 LOC644954 644954 10 63245218 457 1.28 43 1.44 3.23 498 1.32E−03 RS10495466 118 FMN2 56776 1 236834608 474 1.29 22 1.5 3.23 494 1.32E−03 RS7148403 1234 14 38248309 441 1.28 55 1.42 3.23 494 1.32E−03 RS1936671 97 1 189055410 373 1.27 121 1.37 3.23 492 1.32E−03 RS10485148 619 6 23080312 340 1.27 150 1.37 3.23 488 1.32E−03 RS1792369 1090 FAT3 120114 11 92092081 203 1.25 287 1.34 3.23 488 1.32E−03 RS1604613 1197 13 69021604 217 1.33 255 1.25 3.23 470 1.32E−03 RS4668806 139 2 13630775 263 1.34 207 1.25 3.23 468 1.33E−03 RS10518089 357 SLC4A4 8671 4 72794260 367 1.27 131 1.37 3.22 496 1.37E−03 RS9285122 1183 13 37809901 490 1.29 8 1.64 3.22 496 1.37E−03 RS2150468 1184 UFM1 51569 13 37825888 490 1.29 8 1.64 3.22 496 1.37E−03 RS2217486 489 4 188707345 103 1.38 393 1.27 3.22 494 1.37E−03 RS7897663 1015 NT5C2 22978 10 104895594 343 1.33 153 1.23 3.21 494 1.41E−03 RS2278016 1308 16 50674510 402 1.28 86 1.39 3.21 486 1.42E−03 RS2969004 422 4 131139275 182 1.36 276 1.27 3.21 456 1.42E−03 RS1016579 881 8 129269143 412 1.28 28 1.46 3.21 438 1.42E−03 RS2323936 1186 13 38001773 492 1.29 8 1.64 3.2 498 1.46E−03 RS2323937 1187 13 38001927 492 1.29 8 1.64 3.2 498 1.46E−03 RS2409037 577 5 127314089 448 1.28 48 1.43 3.2 494 1.46E−03 RS3815035 1355 MAP2K6 5608 17 65043983 438 1.28 58 1.42 3.2 494 1.46E−03 RS10517222 332 4 30831187 383 1.27 111 1.37 3.2 492 1.46E−03 RS1861373 1150 12 96275336 212 1.25 282 1.34 3.2 492 1.46E−03 RS10511857 904 9 30276600 408 1.28 82 1.4 3.2 488 1.46E−03 RS1916043 1050 PSMA1 5682 11 14593532 456 1.29 34 1.46 3.2 488 1.46E−03 RS1927914 951 TLR4 7099 9 117544279 220 1.34 266 1.25 3.2 484 1.46E−03 RS741651 1243 14 80689322 443 1.28 39 1.45 3.2 480 1.47E−03 RS2477035 965 10 10571483 193 1.25 287 1.34 3.2 478 1.47E−03 RS631807 613 LOC442161 442161 6 10475686 338 1.27 132 1.37 3.2 468 1.47E−03 RS3805134 295 SLC15A2 6565 3 123100746 189 1.35 277 1.26 3.2 464 1.47E−03 RS1517290 440 4 156679488 219 1.26 199 1.35 3.2 416 1.48E−03 RS10516865 379 4 91462479 495 1.29 5 1.72 3.19 498 1.51E−03 RS10514845 1185 13 37910815 488 1.29 8 1.64 3.19 494 1.51E−03 RS1886452 1200 13 72884855 395 1.28 95 1.39 3.19 488 1.51E−03 RS2834370 1454 21 34346680 460 1.29 16 1.54 3.19 474 1.52E−03 RS2811930 909 UBQLN1 29979 9 83513404 247 1.33 157 1.23 3.19 402 1.53E−03 RS10492335 1156 12 113042283 474 1.31 26 1.11 3.18 498 1.56E−03 RS10502320 1361 LOC388458 388458 18 4137742 267 1.34 231 1.25 3.18 496 1.56E−03 RS3912653 1091 FAT3 120114 11 92135172 204 1.25 290 1.33 3.18 492 1.57E−03 RS652238 1395 18 64109605 417 1.31 77 1.19 3.18 492 1.57E−03 RS2169942 565 5 117512644 449 1.28 43 1.43 3.18 490 1.57E−03 RS10510809 274 3 59414093 402 1.28 80 1.4 3.18 480 1.57E−03 RS7963889 1134 12 73136950 156 1.35 284 1.25 3.18 438 1.58E−03 RS10517442 351 4 59273158 88 1.39 412 1.28 3.17 498 1.62E−03 RS7002137 769 8 10653610 425 1.28 73 1.4 3.17 496 1.62E−03 RS10508392 960 10 9722419 466 1.29 30 1.47 3.17 494 1.62E−03 RS10512935 304 EPHB1 2047 3 136107953 381 1.27 109 1.38 3.17 488 1.62E−03 RS10516655 366 4 82801964 372 1.28 118 1.38 3.17 488 1.62E−03 RS10500474 1318 16 62073509 401 1.28 73 1.4 3.17 472 1.62E−03 RS1556082 1215 GPC6 10082 13 93502465 95 1.38 401 1.27 3.16 494 1.67E−03 RS3897748 113 1 214677604 407 1.31 79 1.19 3.16 484 1.68E−03 RS10488642 751 TRIM24 8805 7 137646187 373 1.27 109 1.38 3.16 480 1.68E−03 RS1407473 890 9 7989681 357 1.27 123 1.36 3.16 478 1.68E−03 RS7453920 631 HLA-DQB2 3120 6 32837990 187 1.35 291 1.26 3.16 476 1.68E−03 RS10510155 1037 10 128313990 424 1.28 50 1.42 3.16 472 1.68E−03 RS989766 1431 PTPRT 11122 20 40443639 320 1.27 116 1.38 3.16 434 1.69E−03 RS6852538 427 4 137338578 221 1.34 275 1.26 3.15 494 1.73E−03 RS1639239 707 DGKB 1607 7 14564608 91 1.21 403 1.32 3.15 492 1.73E−03 RS2881290 394 COL25A1 84570 4 110563718 432 1.31 60 1.18 3.15 490 1.73E−03 RS10495618 140 2 13631037 284 1.33 206 1.25 3.15 488 1.73E−03 RS10507083 1149 12 96255384 114 1.22 372 1.32 3.15 484 1.73E−03 RS1926029 1014 NT5C2 22978 10 104845660 314 1.33 80 1.21 3.15 392 1.76E−03 RS591576 1203 FBXL3 26224 13 76488937 81 1.39 419 1.28 3.14 498 1.79E−03 RS10506626 1128 TSPAN8 7103 12 69815758 341 1.27 153 1.36 3.14 492 1.79E−03 RS1050692 970 GPR158 57512 10 25677276 487 1.29 5 1.72 3.14 490 1.79E−03 RS10519371 426 4 137332410 222 1.34 256 1.26 3.14 476 1.79E−03 RS2043179 1273 15 44563353 239 1.25 239 1.33 3.14 476 1.79E−03 RS2121956 79 1 104801417 196 1.35 278 1.26 3.14 472 1.80E−03 RS7445088 526 5 62306508 404 1.28 68 1.4 3.14 470 1.80E−03 RS1917952 429 4 137355240 205 1.35 251 1.26 3.14 454 1.80E−03 RS3751462 1239 LOC283553 283553 14 50897971 346 1.32 66 1.2 3.14 410 1.81E−03 RS4757441 1051 PLEKHA7 144100 11 16859250 440 1.31 60 1.18 3.13 498 1.85E−03 RS10521210 1335 17 12966928 233 1.34 261 1.26 3.13 492 1.85E−03 RS10514632 212 RAPGEF4 11069 2 173530419 391 1.32 95 1.21 3.13 484 1.85E−03 RS2296697 40 LPHN2 23266 1 82149240 400 1.28 80 1.39 3.13 478 1.86E−03 RS6978964 701 SDK1 221935 7 3646860 437 1.28 61 1.41 3.12 496 1.91E−03 RS10487779 709 DGKB 1607 7 14617576 105 1.21 393 1.32 3.12 496 1.91E−03 RS4102401 866 RRM2B 50484 8 103288416 477 1.29 21 1.5 3.12 496 1.91E−03 RS323416 1359 17 69240908 476 1.29 22 1.49 3.12 496 1.91E−03 RS7794555 754 LOC653748 653748 7 153481879 462 1.28 34 1.45 3.12 494 1.91E−03 RS3118650 1194 13 49927325 482 1.29 14 1.54 3.12 494 1.91E−03 RS10501933 1100 CNTN5 53942 11 99284564 403 1.28 91 1.38 3.12 492 1.91E−03 RS7768538 630 HLA-DQB2 3120 6 32837799 299 1.26 193 1.35 3.12 490 1.92E−03 RS10498836 654 6 66585591 422 1.32 64 1.19 3.12 484 1.92E−03 RS9284616 360 FRAS1 80144 4 79349710 448 1.28 32 1.45 3.12 478 1.92E−03 RS10226709 708 DGKB 1607 7 14570874 382 1.32 68 1.19 3.12 448 1.93E−03 RS10497689 224 2 188708247 495 1.29 5 1.71 3.11 498 1.98E−03 RS2969001 423 4 131140397 305 1.26 195 1.35 3.11 498 1.98E−03 RS10492135 1114 GRIN2B 2904 12 13777535 110 1.38 388 1.27 3.11 496 1.98E−03 RS715428 1365 KIAA1772 80000 18 17131449 486 1.29 12 1.57 3.11 496 1.98E−03 RS10511852 903 9 30227951 477 1.29 15 1.54 3.11 490 1.98E−03 RS10509863 1020 10 109828476 439 1.28 35 1.45 3.11 472 1.98E−03 RS1598045 171 LOC646790 646790 2 44288776 261 1.25 209 1.34 3.11 468 1.99E−03 RS2089907 122 2 2454467 342 1.27 112 1.37 3.11 452 1.99E−03 RS923544 45 1 87792449 246 1.34 246 1.26 3.1 490 2.05E−03 RS2881836 234 AOX2 344454 2 201469088 326 1.26 148 1.36 3.1 472 2.05E−03 RS10504722 853 ZBTB10 65986 8 81592447 60 1.41 396 1.28 3.1 454 2.06E−03 RS2849382 1394 BCL2 596 18 59127173 408 1.28 48 1.43 3.1 454 2.06E−03 RS10490026 236 KIAA1843 84540 2 210558951 460 1.29 40 1.44 3.09 498 2.11E−03 RS10490028 238 KIAA1843 84540 2 210560666 460 1.29 40 1.44 3.09 498 2.11E−03 RS10517787 444 4 165039745 454 1.29 42 1.43 3.09 494 2.11E−03 RS3886738 992 LOC644954 644954 10 63234254 451 1.28 39 1.44 3.09 488 2.12E−03 RS1293700 1416 19 58837765 65 1.41 417 1.29 3.09 480 2.12E−03 RS1484317 76 1 101802287 342 1.28 110 1.38 3.09 450 2.13E−03 RS10485880 736 MAGI2 9863 7 77560883 376 1.28 56 1.41 3.09 430 2.13E−03 RS10507926 1211 13 81335314 456 1.31 44 1.16 3.08 498 2.18E−03 RS2480010 617 6 23014923 371 1.27 121 1.36 3.08 490 2.19E−03 RS2072506 722 AMPH 273 7 38275635 459 1.29 31 1.46 3.08 488 2.19E−03 RS10518211 365 4 80294244 265 1.33 223 1.25 3.08 486 2.19E−03 RS10517561 434 LOC646697 646697 4 153190724 296 1.26 192 1.35 3.08 486 2.19E−03 RS4131874 819 8 42051123 124 1.22 364 1.32 3.08 486 2.19E−03 RS9328534 954 CRSP8 9442 9 131904359 335 1.32 153 1.23 3.08 486 2.19E−03 RS9292042 517 ARL15 54622 5 53572755 377 1.27 105 1.38 3.08 480 2.19E−03 RS1429130 432 4 148581368 443 1.29 25 1.48 3.08 466 2.19E−03 RS10505777 1113 12 13378527 354 1.3 4 1.77 3.08 356 2.23E−03 RS10503626 808 PSD3 23362 8 18591364 475 1.29 23 1.49 3.07 496 2.26E−03 RS4440168 475 4 178345257 424 1.28 72 1.4 3.07 494 2.26E−03 RS724334 273 CAST1 26059 3 55933122 411 1.28 79 1.39 3.07 488 2.26E−03 RS10497650 223 2 185048541 469 1.29 5 1.71 3.07 472 2.26E−03 RS9318612 1208 13 78663468 239 1.26 235 1.34 3.07 472 2.26E−03 RS4876853 878 8 119765786 448 1.29 10 1.59 3.07 456 2.27E−03 RS4418368 758 DLGAP2 9228 8 1585785 264 1.28 148 1.37 3.07 410 2.28E−03 RS10514831 907 9 82681244 439 1.28 61 1.41 3.06 498 2.33E−03 RS10495390 116 RYR2 6262 1 233639054 448 1.28 46 1.43 3.06 492 2.33E−03 RS10513792 317 MCF2L2 23101 3 184517877 416 1.28 52 1.42 3.06 466 2.34E−03 RS9327177 567 5 120387365 184 1.35 272 1.26 3.06 454 2.34E−03 RS10489945 46 1 88125610 469 1.31 27 1.12 3.05 494 2.41E−03 RS1121640 1099 11 96694636 464 1.29 32 1.46 3.05 494 2.41E−03 RS3770186 241 EPHA4 2043 2 222137844 385 1.28 109 1.38 3.05 492 2.41E−03 RS979322 1247 14 84118568 288 1.26 206 1.34 3.05 492 2.41E−03 RS1112809 210 2 148314459 436 1.31 52 1.18 3.05 486 2.41E−03 RS1525647 725 7 45289320 106 1.38 374 1.28 3.05 478 2.42E−03 RS2451947 1138 12 76451623 278 1.34 184 1.25 3.05 460 2.42E−03 RS360559 644 CRISP2 7180 6 49767830 275 1.34 173 1.25 3.05 446 2.42E−03 RS997132 1204 13 76829538 274 1.25 164 1.34 3.05 436 2.43E−03 RS2503102 679 LOC442238 442238 6 100650488 282 1.33 144 1.24 3.05 424 2.43E−03 RS10492047 1158 LOC144678 144678 12 125460210 475 1.29 25 1.48 3.04 498 2.49E−03 RS10495667 141 VSNL1 7447 2 17745120 493 1.29 5 1.7 3.04 496 2.49E−03 RS6650321 1214 GPC6 10082 13 93419035 388 1.28 110 1.37 3.04 496 2.49E−03 RS1818711 1279 UNC13C 440279 15 52692074 288 1.26 210 1.35 3.04 496 2.49E−03 RS10489026 391 4 109640337 358 1.27 134 1.36 3.04 490 2.49E−03 RS1322137 893 9 10220744 330 1.27 162 1.35 3.04 490 2.49E−03 RS1749541 57 ABCD3 5825 1 94670399 338 1.27 148 1.36 3.04 484 2.49E−03 RS10489036 320 KIAA1276 27146 4 17373956 350 1.27 130 1.36 3.04 478 2.50E−03 RS10518502 419 4 127915337 349 1.32 121 1.22 3.04 468 2.50E−03 RS2900932 1022 10 113232182 351 1.28 119 1.37 3.04 468 2.50E−03 RS2304376 727 GBAS 2631 7 55823228 389 1.32 77 1.21 3.04 464 2.50E−03 RS953273 92 NMNAT2 23057 1 180031268 259 1.26 171 1.35 3.04 428 2.51E−03 RS10495767 149 FLJ34931 388939 2 29198843 357 1.27 47 1.42 3.04 402 2.52E−03 RS878016 757 DLGAP2 9228 8 1585693 355 1.27 143 1.36 3.03 496 2.57E−03 RS2825652 1441 21 19865219 488 1.29 10 1.58 3.03 496 2.57E−03 RS1487377 1375 OSBPLIA 114876 18 20137550 99 1.22 397 1.32 3.03 494 2.57E−03 RS10484693 603 GMDS 2762 6 1855107 482 1.29 12 1.56 3.03 492 2.57E−03 RS150344 1302 16 22728560 414 1.28 76 1.39 3.03 488 2.58E−03 RS1886484 1199 13 71945230 178 1.35 308 1.27 3.03 484 2.58E−03 RS10489925 67 PAP2D 163404 1 99173344 361 1.27 107 1.37 3.03 466 2.58E−03 RS10486012 742 7 105824729 491 1.29 9 1.6 3.02 498 2.66E−03 RS2161413 589 5 165940868 452 1.31 44 1.17 3.02 494 2.66E−03 RS2162654 1155 12 113038233 467 1.3 29 1.13 3.02 494 2.66E−03 RS7694034 377 MAPK10 5602 4 87647635 402 1.31 84 1.2 3.02 484 2.66E−03 RS7844425 818 8 32495159 321 1.27 155 1.36 3.02 474 2.66E−03 RS2893569 723 POU6F2 11281 7 38839984 461 1.29 7 1.64 3.02 466 2.67E−03 RS4628499 119 LOC645939 645939 1 237260520 379 1.27 87 1.38 3.02 464 2.67E−03 RS2105233 117 1 235710329 375 1.32 81 1.2 3.02 454 2.67E−03 RS10507553 1190 13 46687101 495 1.29 5 1.7 3.01 498 2.74E−03 RS1852561 731 7 69770184 15 1.53 483 1.29 3.01 496 2.75E−03 RS1460174 845 8 80266395 396 1.28 102 1.38 3.01 496 2.75E−03 RS1938105 652 6 66567647 427 1.32 69 1.2 3.01 494 2.75E−03 RS964453 1326 USP10 9100 16 83325736 372 1.32 108 1.22 3.01 478 2.75E−03 RS10509153 989 10 63041318 416 1.28 42 1.42 3.01 456 2.76E−03 RS1582165 121 1 244927430 40 1.16 362 1.31 3.01 400 2.78E−03 RS7574093 176 2 56818904 490 1.29 10 1.58 3 498 2.84E−03 RS4684321 256 3 1842614 477 1.29 23 1.48 3 498 2.84E−03 RS10491543 908 9 82683005 438 1.28 60 1.41 3 496 2.84E−03 RS10483457 1232 GARNL1 253959 14 35211683 464 1.29 34 1.45 3 496 2.84E−03 RS2474263 678 LOC442238 442238 6 100641976 315 1.32 177 1.24 3 490 2.84E−03 RS10488693 1083 C11orf11 747 11 61241732 467 1.29 23 1.48 3 488 2.84E−03 RS1275637 1135 12 74445115 423 1.28 67 1.4 3 488 2.84E−03 RS10488865 388 4 105801941 441 1.3 31 1.13 3 470 2.84E−03 RS1537656 607 6 8060391 343 1.27 119 1.37 3 460 2.85E−03 RS2248815 1453 ITSN1 6453 21 34060196 386 1.32 59 1.19 3 446 2.85E−03 RS10497776 228 2 196795652 493 1.29 5 1.7 2.99 496 2.93E−03 RS10501410 1085 CLPB 81570 11 71766454 438 1.28 58 1.41 2.99 494 2.93E−03 RS1513104 1127 PTPRR 5801 12 69387170 419 1.28 75 1.39 2.99 492 2.93E−03 RS10223625 656 6 67183675 420 1.28 72 1.4 2.99 490 2.93E−03 RS6987277 766 8 8977241 453 1.29 39 1.44 2.99 490 2.93E−03 RS1964670 362 FRAS1 80144 4 79351645 163 1.24 321 1.33 2.99 482 2.93E−03 RS3124806 2 CAMTA1 23261 1 7703744 456 1.28 26 1.45 2.99 480 2.93E−03 RS219664 1445 21 26728062 376 1.32 104 1.22 2.99 478 2.93E−03 RS1430593 739 7 84135009 400 1.32 70 1.2 2.99 468 2.94E−03 RS10493179 5 USP24 23358 1 55317664 413 1.29 43 1.43 2.99 454 2.94E−03 RS4131826 87 SDHC 6391 1 158095457 349 1.27 147 1.36 2.98 494 3.02E−03 RS7997251 1201 13 75508128 399 1.28 97 1.38 2.98 494 3.02E−03 RS1786606 1384 DTNA 1837 18 30686115 417 1.32 79 1.21 2.98 494 3.02E−03 RS2294311 1457 HSPC117 51493 22 31117823 369 1.27 127 1.37 2.98 494 3.02E−03 RS1343725 825 8 70070765 426 1.28 68 1.4 2.98 492 3.03E−03 RS10509766 1016 NT5C2 22978 10 104916324 339 1.33 151 1.24 2.98 488 3.03E−03 RS2413809 1270 15 44497210 322 1.27 168 1.35 2.98 488 3.03E−03 RS7164579 1288 LCTL 197021 15 64629063 26 1.47 456 1.29 2.98 480 3.03E−03 RS6449326 321 KIAA1276 27146 4 17376059 338 1.27 136 1.36 2.98 472 3.03E−03 RS4955346 265 3 30879119 299 1.27 159 1.36 2.98 456 3.04E−03 RS522071 1177 MGC9850 219404 13 27109580 276 1.26 160 1.35 2.98 434 3.04E−03 RS10519370 425 4 137332061 221 1.34 275 1.26 2.97 494 3.12E−03 RS7467596 955 CRSP8 9442 9 131942232 349 1.32 147 1.24 2.97 494 3.12E−03 RS10492139 1115 GRIN2B 2904 12 13877862 113 1.37 383 1.27 2.97 494 3.12E−03 RS2014357 883 8 133172472 441 1.28 53 1.41 2.97 492 3.12E−03 RS10512680 509 FLJ39155 133584 5 38307189 226 1.26 232 1.35 2.97 456 3.14E−03 RS157819 1320 16 75582042 252 1.27 164 1.36 2.97 414 3.15E−03 RS2248518 991 C10orf107 219621 10 63181795 333 1.27 167 1.35 2.96 498 3.22E−03 RS7827548 765 CSMD1 64478 8 4593724 331 1.27 167 1.35 2.96 496 3.22E−03 RS6954168 755 LOC653748 653748 7 153533800 489 1.29 7 1.63 2.96 494 3.22E−03 RS1385080 1271 15 44513999 470 1.29 20 1.5 2.96 488 3.23E−03 RS1443786 367 4 83267782 338 1.28 146 1.37 2.96 482 3.23E−03 RS10484230 1236 14 43700947 379 1.27 105 1.37 2.96 482 3.23E−03 RS223128 1337 17 26933541 320 1.27 164 1.35 2.96 482 3.23E−03 RS7779879 743 7 114677634 95 1.22 319 1.32 2.96 412 3.25E−03 RS10502185 1107 11 113786625 468 1.29 32 1.45 2.95 498 3.33E−03 RS10490838 263 3 24574382 483 1.29 15 1.52 2.95 496 3.33E−03 RS10519443 564 COMMD10 51397 5 115500392 470 1.28 28 1.46 2.95 496 3.33E−03 RS10503272 763 CSMD1 64478 8 4592774 332 1.27 166 1.35 2.95 496 3.33E−03 RS7675645 352 4 59309086 410 1.28 86 1.38 2.95 494 3.33E−03 RS950016 1244 14 81514393 467 1.29 27 1.46 2.95 492 3.33E−03 RS2396821 635 6 47183758 401 1.28 89 1.38 2.95 488 3.33E−03 RS2981069 826 8 70100501 426 1.28 64 1.4 2.95 488 3.33E−03 RS9296486 616 PHACTR1 221693 6 12956955 401 1.32 87 1.21 2.95 486 3.33E−03 RS10484416 657 6 67185561 417 1.28 71 1.4 2.95 486 3.33E−03 RS10500585 1319 16 72882363 347 1.32 139 1.23 2.95 484 3.33E−03 RS7220359 1354 RGS9 8787 17 60614155 472 1.29 14 1.53 2.95 484 3.33E−03 RS1037364 1344 YPEL2 388403 17 54792947 405 1.31 71 1.2 2.95 474 3.33E−03 RS725882 409 4 122925927 417 1.31 51 1.18 2.95 466 3.34E−03 RS10488493 726 FLJ45974 401337 7 53543405 376 1.27 124 1.37 2.94 498 3.43E−03 RS9298324 843 8 80208439 417 1.28 83 1.39 2.94 498 3.43E−03 RS9325158 1123 FLJ32942 121355 12 53146448 474 1.29 26 1.47 2.94 498 3.43E−03 RS352427 816 8 28571996 482 1.29 16 1.52 2.94 496 3.44E−03 RS4741021 894 9 10237653 165 1.35 333 1.27 2.94 496 3.44E−03 RS10505768 1112 12 12790297 114 1.22 382 1.32 2.94 494 3.44E−03 RS1233775 1425 C20orf133 140733 20 15451543 379 1.32 117 1.22 2.94 494 3.44E-03 RS10517281 348 SCFD2 152579 4 53868523 366 1.27 128 1.36 2.94 492 3.44E−03 RS10498321 1231 NPAS3 64067 14 33263982 433 1.28 61 1.4 2.94 492 3.44E−03 RS2831853 1449 21 28781867 482 1.3 10 1.02 2.94 490 3.44E−03 RS503699 1178 MGC9850 219404 13 27112734 184 1.35 304 1.27 2.94 486 3.44E−03 RS8137239 1456 LOC644802 644802 22 15504963 461 1.29 21 1.49 2.94 480 3.44E−03 RS10517799 445 4 165398678 379 1.32 101 1.22 2.94 478 3.44E−03 RS1154307 550 5 111049411 424 1.29 44 1.43 2.94 466 3.45E−03 RS10513217 305 SLC9A9 285195 3 144888396 163 1.36 301 1.27 2.94 462 3.45E−03 RS10518928 1269 MEIS2 4212 15 35140532 367 1.32 97 1.21 2.94 462 3.45E−03 RS1993468 1413 19 33195886 167 1.35 249 1.26 2.94 414 3.47E−03 RS9283695 323 KIAA0746 23231 4 25462687 327 1.33 173 1.24 2.93 498 3.55E−03 RS6829390 338 TEC 7006 4 48039914 484 1.29 16 1.51 2.93 498 3.55E−03 RS10498681 615 PHACTRI 221692 6 12916270 464 1.31 34 1.15 2.93 496 3.55E−03 RS1150030 959 10 9405319 467 1.29 31 1.45 2.93 496 3.55E−03 RS1938887 1101 11 99767680 71 1.2 425 1.31 2.93 494 3.55E−03 RS979022 387 4 105311555 260 1.26 232 1.34 2.93 490 3.55E−03 RS1485870 453 LOC442117 442117 4 173125585 386 1.32 100 1.22 2.93 484 3.55E−03 RS4696124 435 4 153293160 233 1.26 251 1.34 2.93 482 3.55E−03 RS2721304 559 5 113462331 428 1.29 56 1.41 2.93 482 3.55E−03 RS1943752 1102 11 100601234 354 1.27 128 1.36 2.93 480 3.55E−03 RS7328960 1225 FLJ26443 400165 13 112376717 248 1.26 234 1.34 2.93 480 3.55E−03 RS10509209 1001 10 66120490 243 1.26 233 1.34 2.93 474 3.55E−03 RS10491082 1327 LOC342531 342531 17 6498311 279 1.27 197 1.35 2.93 474 3.55E−03 RS10490027 237 KIAA1843 84540 2 210559968 373 1.29 27 1.46 2.93 398 3.58E−03 RS1528842 209 2 148291308 442 1.31 58 1.19 2.92 498 3.66E−03 RS2991463 1209 13 78682643 134 1.36 362 1.27 2.92 494 3.66E−03 RS1158815 482 4 188232341 136 1.23 356 1.32 2.92 490 3.66E−03 RS10484317 604 FARS2 10667 6 5614669 469 1.28 23 1.47 2.92 490 3.66E−03 RS665889 915 9 85011765 277 1.26 213 1.34 2.92 488 3.66E−03 RS709228 1147 12 91074897 343 1.27 147 1.36 2.92 488 3.66E−03 RS10508059 1223 VGCNL1 259232 13 1007320832 407 1.28 81 1.38 2.92 486 3.66E−03 RS2103391 1154 CHST11 50515 12 103381740 317 1.33 169 1.24 2.92 484 3.66E−03 RS7576837 215 2 180945207 90 1.37 394 1.27 2.92 482 3.66E−03 RS6974799 737 MAGI2 9863 7 77761741 390 1.28 90 1.38 2.92 478 3.67E−03 RS1480757 356 4 71398388 300 1.27 172 1.36 2.92 470 3.67E−03 RS10502909 1393 18 46384530 378 1.27 92 1.36 2.92 468 3.67E−03 RS1456196 293 3 119137243 374 1.28 86 1.38 2.92 458 3.67E−03 RS6537736 84 1 112623366 395 1.32 57 1.19 2.92 450 3.68E−03 RS959902 574 5 121872175 304 1.32 92 1.22 2.92 394 3.70E−03 RS2033874 138 2 12053486 345 1.27 155 1.36 2.91 498 3.78E−03 RS899557 595 5 170994216 277 1.33 223 1.25 2.91 498 3.78E−03 RS2480014 618 6 23021718 355 1.32 145 1.24 2.91 498 3.78E−03 RS2166890 80 1 104824377 354 1.27 144 1.36 2.91 496 3.78E−03 RS6801518 307 3 145604317 402 1.32 96 1.22 2.91 496 3.78E−03 RS9312699 349 4 59216510 421 1.28 77 1.39 2.91 496 3.78E−03 RS6956726 735 RSBN1L 222194 7 77019497 196 1.25 302 1.33 2.91 496 3.78E−03 RS7654796 375 MAPK10 5602 4 87588743 200 1.34 296 1.26 2.91 494 3.78E−03 RS10509702 1009 10 97914086 484 1.29 12 1.55 2.91 494 3.78E−03 RS10512573 1356 17 65056574 438 1.28 58 1.4 2.91 494 3.78E−03 RS744832 191 2 117564871 437 1.28 55 1.41 2.91 490 3.78E−03 RS6935765 655 6 67179216 421 1.29 71 1.4 2.91 490 3.78E−03 RS10518774 1282 UNC13C 440279 15 52700466 249 1.34 237 1.26 2.91 484 3.78E−03 RS2069837 710 IL6 3569 7 22541267 458 1.29 24 1.47 2.91 480 3.78E−03 RS726252 90 PAPPA2 60676 1 173391904 303 1.27 177 1.35 2.91 478 3.78E−03 RS717595 767 LOC645986 645986 8 9234995 343 1.32 123 1.23 2.91 464 3.79E−03 RS1881014 732 7 69770606 441 1.3 17 1.52 2.91 456 3.79E−03 RS2458349 1105 11 105805096 210 1.34 248 1.26 2.91 456 3.79E−03 RS10500985 1052 LUZP2 338645 11 24590527 87 1.37 367 1.27 2.91 452 3.79E−03 RS722708 1363 SPIRE1 56907 18 12535581 185 1.32 209 1.24 2.91 392 3.82E−03 RS10516773 376 MAPK10 5602 4 87589325 202 1.34 298 1.27 2.9 498 3.90E−03 RS6976144 734 RSBN1L 222194 7 77019455 197 1.25 303 1.33 2.9 498 3.90E−03 RS711088 1137 12 76434536 292 1.33 202 1.25 2.9 492 3.90E−03 RS2147085 37 1 80971158 232 1.33 258 1.25 2.9 488 3.90E−03 RS2250756 477 4 182095665 262 1.26 188 1.35 2.9 448 3.92E−03 RS9310281 282 3 73964504 339 1.27 103 1.36 2.9 440 3.92E−03 RS10485485 1419 GPR73L1 128674 20 5232380 102 1.37 398 1.28 2.89 498 4.02E−03 RS233051 42 DDAH1 23576 1 85550434 364 1.32 132 1.23 2.89 494 4.02E−03 RS2725010 762 CSMD1 64478 8 4542585 287 1.26 209 1.34 2.89 494 4.02E−03 RS953177 823 DNAJC5B 85479 8 67096174 470 1.29 26 1.47 2.89 494 4.02E−03 RS10503166 756 DLGAP2 9228 8 1477325 60 1.4 434 1.28 2.89 492 4.02E−03 RS7263438 1418 GPR73L1 128674 20 5232251 391 1.28 101 1.37 2.89 490 4.02E−03 RS10498835 653 6 66572761 423 1.32 65 1.2 2.89 486 4.02E−03 RS9319534 1321 WWOX 51741 16 77648659 309 1.33 171 1.24 2.89 478 4.03E−03 RS9297874 884 8 134984532 399 1.32 73 1.21 2.89 470 4.03E−03 RS6837953 437 4 154288568 432 1.28 36 1.42 2.89 466 4.03E−03 RS720613 749 7 124046621 366 1.28 98 1.38 2.89 462 4.03E−03 RS1830826 41 1 83991668 443 1.31 15 1.08 2.89 456 4.04E−03 RS802279 684 TCBA1 154215 6 124562146 336 1.31 90 1.21 2.89 424 4.05E−03 RS2163120 792 8 16165538 488 1.29 12 1.54 2.88 498 4.15E−03 RS730837 306 3 145584497 399 1.32 93 1.22 2.88 490 4.15E−03 RS2138992 105 IL19 29949 1 203382799 121 1.23 363 1.32 2.88 482 4.15E−03 RS10501826 1097 11 94739512 286 1.33 192 1.25 2.88 476 4.16E−03 RS7609812 267 3 30885478 320 1.27 156 1.36 2.88 474 4.16E−03 RS1298362 1136 12 74493708 225 1.25 251 1.33 2.88 474 4.16E−03 RS1485871 454 LOC442117 442117 4 173125753 377 1.32 91 1.22 2.88 466 4.16E−03 RS10509757 1012 CNNM2 54805 10 104742950 302 1.33 164 1.25 2.88 464 4.16E−03 RS10497017 208 2 148275544 418 1.32 46 1.18 2.88 462 4.16E−03 RS9284299 1277 UNC13C 440279 15 52685923 115 1.36 285 1.27 2.88 398 4.19E−03 RS10498212 249 IRS1 3667 2 227476780 482 1.3 18 1.1 2.87 498 4.28E−03 RS10507930 1212 13 82396265 494 1.29 6 1.65 2.87 498 4.28E−03 RS1901439 204 2 134271203 440 1.28 58 1.4 2.87 496 4.28E−03 RS10520494 478 4 182747335 426 1.28 72 1.39 2.87 496 4.28E−03 RS696428 1139 12 76454956 293 1.33 203 1.25 2.87 494 4.28E−03 RS770123 1140 NAV3 89795 12 76926472 310 1.33 186 1.25 2.87 494 4.28E−03 RS1924794 1191 13 47173413 283 1.27 213 1.34 2.87 494 4.28E−03 RS4617036 729 FLJ10099 55069 7 65859759 345 1.32 149 1.24 2.87 492 4.28E−03 RS943345 1007 SORBS1 10580 10 97240620 83 1.38 411 1.28 2.87 492 4.28E−03 RS7874576 896 9 12600410 487 1.29 5 1.68 2.87 490 4.28E−03 RS917022 393 COL25A1 84570 4 110557948 429 1.31 61 1.2 2.87 488 4.28E−03 RS2913260 529 SV2C 22987 5 75644923 424 1.31 66 1.2 2.87 488 4.28E−03 RS10491705 887 9 2259108 423 1.31 67 1.2 2.87 488 4.28E−03 RS6740690 205 2 134611767 243 1.26 243 1.34 2.87 484 4.28E−03 RS297574 865 8 96256279 120 1.37 342 1.28 2.87 460 4.29E−03 RS9317744 1176 13 22963766 451 1.3 11 1.56 2.87 460 4.29E−03 RS1959736 1245 14 82487626 51 1.41 407 1.28 2.87 456 4.30E−03 RS10516114 600 5 173638652 463 1.31 37 1.16 2.86 498 4.41E−03 RS7465623 877 8 119372441 116 1.37 384 1.28 2.86 498 4.41E−03 RS10498292 1229 14 27284462 413 1.28 87 1.38 2.86 498 4.41E−03 RS2964299 588 5 165876275 478 1.31 20 1.11 2.86 496 4.42E−03 RS10506524 1124 MSRB3 253827 12 64070379 480 1.29 18 1.5 2.86 496 4.42E−03 RS1216987 1189 13 46240774 461 1.29 37 1.43 2.86 496 4.42E−03 RS10511294 289 3 112534708 394 1.32 102 1.22 2.86 494 4.42E−03 RS10503273 764 CSMD1 64478 8 4592896 330 1.27 166 1.35 2.86 494 4.42E−03 RS438548 1210 13 81272799 447 1.31 49 1.18 2.86 494 4.42E−03 RS2111826 309 CLDN11 5010 3 171623548 455 1.31 39 1.16 2.86 492 4.42E−03 RS4521277 266 3 30879801 171 1.35 321 1.27 2.86 490 4.42E−03 RS10514263 545 EDIL3 10085 5 83426017 474 1.29 18 1.49 2.86 490 4.42E−03 RS10489920 66 PAP2D 163404 1 99146514 436 1.28 52 1.41 2.86 486 4.42E−03 RS9327178 568 5 120387547 202 1.34 286 1.26 2.86 486 4.42E−03 RS883025 935 RGS3 5998 9 113405053 386 1.31 100 1.21 2.86 484 4.42E−03 RS4767227 1157 12 113050998 194 1.25 282 1.34 2.86 474 4.42E−03 RS9318391 1202 13 75517111 381 1.28 67 1.39 2.86 446 4.44E−03 RS1916411 997 10 65340839 222 1.25 222 1.33 2.86 442 4.44E−03 RS7023082 910 9 83559554 250 1.33 176 1.25 2.86 424 4.45E−03 RS1996970 173 SALF 286749 2 48710134 316 1.28 88 1.38 2.86 402 4.46E−03

TABLE 3 SNP markers with P-value less than 0.005 for HDL from F-test (one-way ANOVA). Alleles are codes as 1 = A, 2 = C, 3 = G, and 4 = T. For each group number of observations ‘n’ and average value ‘avg’ are presented. RS_id SEQ_ID_no Gene Gene_id Chr Position g1 n1 RS1410126 687 C6orf103 79747 6 147125370 1/1 5 RS10498321 1231 NPAS3 64067 14 33263982 1/1 187 RS744832 191 2 117564871 1/1 1 RS10485909 738 MAGI2 9863 7 77884399 2/2 227 RS2195989 872 ANGPT1 284 8 108555088 2/2 9 RS1399503 1159 12 127163861 3/3 204 RS4102401 866 RRM2B 50484 8 103288416 2/2 1 RS10518533 420 4 129815863 1/1 5 RS10504433 824 8 70021434 2/2 196 RS10516418 384 4 98106087 1/1 213 RS2230133 580 TAF7 6879 5 140679241 2/2 205 RS10498260 253 MGC42174 129563 2 232882126 1/1 1 RS10486467 712 7 26427754 1/1 1 RS2120650 1292 15 84419700 1/1 223 RS1467596 605 FLJ33708 285780 6 6360933 1/1 1 RS2170398 773 8 13592708 2/2 1 RS352766 775 8 15688930 2/2 1 RS10488888 395 4 111641312 2/2 1 RS4960221 606 LY86 9450 6 6547432 2/2 186 RS10494066 81 NTNG1 22854 1 107501550 2/2 6 RS10517155 330 4 28879822 2/2 1 RS9303878 1360 18 1564764 1/1 202 RS10510995 281 3 70525819 1/1 1 RS718759 575 5 125467810 2/2 1 RS1480145 796 8 16181494 2/2 238 RS10485110 682 6 116309557 3/3 6 RS1902049 154 LTBP1 4052 2 33281233 3/3 136 RS2235216 683 6 116310188 1/1 6 RS470559 1399 MBP 4155 18 72887390 2/2 3 RS10503573 780 MSR1 4481 8 16047855 1/1 236 RS2854946 1259 SERPINAS 5104 14 94118132 2/2 13 RS4631686 3 1 14322780 1/3 8 RS6954679 728 7 62940814 1/1 207 RS866651 262 THRB 7068 3 24237159 2/2 167 RS2255565 194 2 118114732 1/1 191 RS10483988 1250 GALC 2581 14 87504310 2/2 178 RS387661 587 GABRG2 2566 5 161476289 2/2 2 RS2029259 484 4 188422292 1/1 194 RS2113515 195 2 118115019 2/2 187 RS10503586 803 8 16792998 1/1 232 RS285406 855 8 87094129 2/2 228 RS6811055 336 4 46732838 2/2 75 RS397618 1063 TMEM16C 63982 11 26546754 2/2 236 RS896990 251 MGC42174 129563 2 232714361 1/1 3 RS250387 518 ARL15 54622 5 53620394 1/1 172 RS9299445 993 LOC644954 644954 10 63244794 2/2 206 RS10516673 370 HNRPD 3184 4 83635972 1/1 237 RS10520350 472 4 177769342 2/2 1 RS9299446 994 LOC644954 644954 10 63244886 1/1 3 RS2170116 791 8 16157007 2/2 231 RS4888946 1324 16 77874931 1/1 177 RS10495783 155 LTBP1 4052 2 33313283 2/2 50 RS10516834 378 4 90629156 1/1 3 RS2207139 645 6 50953449 2/2 8 RS8054578 1323 16 77874316 1/1 3 RS7897958 987 BICC1 80114 10 60121804 1/1 6 RS1121640 1099 11 96694636 2/2 218 RS10493425 9 1 67722148 1/1 216 RS965158 868 8 107564094 2/4 11 RS10482871 1439 21 15700259 2/3 5 RS10503572 789 8 16131101 1/3 5 RS9316436 1168 EFHA1 221154 13 21000655 2/2 183 RS812800 1338 17 30646887 1/1 9 RS10508377 962 10 10107183 1/1 218 RS10500985 1052 LUZP2 338645 11 24590527 1/1 6 RS3116231 252 MGC42174 129563 2 232717788 2/2 2 RS1490125 651 6 66451580 3/3 181 RS8049647 1310 16 50695297 1/1 166 RS10517562 436 4 153393348 1/1 24 RS2222654 430 4 137363666 1/1 77 RS2357344 1242 SYNE2 23224 14 63578006 2/2 5 RS4869279 547 5 95654674 2/2 168 RS11232919 1087 LOC646176 646176 11 81284714 2/2 2 RS9315157 1181 13CDNA73 10129 13 31642352 1/1 6 RS1675904 695 6 154399717 2/2 204 RS1502887 358 FRAS1 80144 4 79340562 2/2 207 RS1380835 1390 18 39747045 3/3 182 RS10509764 1013 CNNM2 54805 10 104766465 2/2 126 RS10514450 1322 16 77874213 2/2 3 RS2101435 254 MGC42174 129563 2 232940663 2/2 191 RS9308931 156 LTBP1 4052 2 33333348 1/1 65 RS2290547 272 HYPB 29072 3 47036187 1/1 13 RS10504709 848 8 80781919 1/1 16 RS10521979 1461 DMD 1756 X 31547276 3/3 41 RS10496647 202 2 126205166 1/1 1 RS8076457 1328 NTN1 9423 17 8884654 2/2 169 RS297733 1417 20 4357955 3/3 160 RS10513319 952 9 117781003 1/1 233 RS10496649 203 2 126293622 2/2 207 RS9325158 1123 FLJ32942 121355 12 53146448 2/2 1 RS1817186 319 4 14843817 2/2 197 RS346421 527 5 62565739 3/3 201 RS3770899 163 CRIM1 51232 2 36566423 1/1 1 RS10506790 1141 12 77762475 1/1 2 RS1749541 57 ABCD3 5825 1 94670399 2/2 116 RS1935229 1 CAMTA1 23261 1 7695267 2/4 33 RS250388 519 ARL15 54622 5 53621019 1/1 6 RS4073625 292 3 118628997 2/2 3 RS4770403 1173 SGCG 6445 13 22653127 1/1 2 RS2157768 1340 17 49582892 1/1 233 RS10514844 1182 13 37808480 2/3 7 RS10484205 1237 14 48644630 1/1 15 RS7897663 1015 NT5C2 22978 10 104895594 1/1 123 RS2278016 1308 16 50674510 2/2 6 RS9303347 1342 17 49585177 1/1 1 RS1011439 1339 17 49582464 1/1 1 RS10494663 94 1 188507735 1/1 5 RS3218491 753 XRCC2 7516 7 151791396 2/4 6 RS1527420 196 2 119267521 1/1 183 RS10509929 1021 10 112482278 2/2 3 RS10508378 961 10 10085297 2/2 1 RS2413809 1270 15 44497210 2/2 102 RS10508940 986 PRKG1 5592 10 52888932 2/2 160 RS9284617 361 FRAS1 80144 4 79349747 1/3 41 RS788005 232 2 198059567 2/2 144 RS2056247 1092 11 93315872 3/3 8 RS10495774 150 2 30418327 2/2 11 RS10484317 604 FARS2 10667 6 5614669 2/2 225 RS10517496 353 4 61091463 2/2 2 RS10485111 681 6 116299831 2/2 186 RS2748324 658 6 71789087 2/2 209 RS4405428 1213 GPC5 2262 13 91916519 2/2 190 RS1044045 1167 EFHA1 221154 13 20965072 1/1 165 RS176435 680 6 103636845 2/2 179 RS10513351 953 9 119606328 3/3 67 RS3766988 91 CACNA1E 777 1 178398940 2/2 8 RS8068574 1343 17 50327246 1/1 151 RS10483457 1232 GARNL1 253959 14 35211683 1/1 217 RS879780 1109 APLP2 334 11 129513314 2/2 1 RS10513301 943 ASTN2 23245 9 117241331 2/2 173 RS4121693 1108 11 121613919 2/2 24 RS10508059 1223 VGCNL1 259232 13 100730832 2/2 171 RS1878144 193 2 117895419 3/3 187 RS10517504 354 4 61173582 1/1 2 RS1356216 192 2 117878791 3/3 195 RS2127258 566 5 117512842 2/2 3 RS1226489 634 GPR110 266977 6 47100017 2/2 1 RS877984 1088 DLG2 1740 11 83257468 1/1 48 RS6735220 229 HECW2 57520 2 197080992 2/2 207 RS3745718 1414 CARD8 22900 19 53406965 1/1 77 RS9303346 1341 17 49583384 1/1 1 RS877345 958 TAF3 83860 10 8093782 1/1 186 RS973916 892 9 9842432 2/2 170 RS1371077 1144 12 89049534 2/2 180 RS1013401 643 6 48502893 1/1 85 RS33375 598 5 170998718 1/1 6 RS10490353 172 UNQ6975 400952 2 45328245 2/2 203 RS10517616 441 4 156733549 2/2 110 RS716224 1179 13 27160986 1/1 5 RS10497783 230 HECW2 57520 2 197081030 1/1 2 RS9304301 1391 18 40017390 2/2 226 RS4646981 1106 NCAM1 4684 11 112596015 1/3 10 RS1535053 602 6 126089 1/1 130 RS4146127 350 4 59260295 1/1 168 RS10519371 426 4 137332410 3/3 69 RS10509698 1008 C10orf130 387707 10 97782342 1/1 1 RS3218177 4 E2F2 1870 1 23590594 1/1 1 RS7577835 233 2 198203562 2/2 10 RS9312013 260 3 8299589 3/3 223 RS10500668 1039 11 6285001 2/2 1 RS2670607 201 2 124113865 1/1 3 RS1550740 1122 12 44813534 2/2 1 RS6990997 867 ZEPM2 23414 8 106881703 2/2 6 RS10506265 1121 12 44802761 2/2 1 RS10487745 746 TAS2R16 50833 7 122228360 1/1 2 RS10494664 95 1 188509177 1/1 184 RS10509702 1009 10 97914086 1/1 237 RS4793547 1358 17 66843227 2/2 36 RS4131522 1153 12 102453596 2/2 220 RS7536312 93 1 188459017 1/1 5 RS1428250 508 5 38252169 1/1 218 RS7718000 551 5 112998258 1/3 5 RS2371319 268 3 40701948 2/2 2 RS10516142 601 FLT4 2324 5 180003769 2/2 243 RS7597348 250 2 232194410 2/2 29 RS10509161 996 LOC644954 644954 10 63245347 1/1 2 RS2827082 1444 21 22119060 2/2 5 RS10491068 1011 BLNK 29760 10 97946892 2/2 236 RS190788 1221 13 97587028 2/2 233 RS1023431 1464 GLA 2717 X 100463954 3/3 214 RS113318 548 PCSK1 5122 5 95767236 2/2 3 RS4131441 283 CNTN3 5067 3 74561538 1/1 16 RS1275637 1135 12 74445115 2/2 178 RS953681 1442 21 20509158 1/1 191 RS381765 363 FRAS1 80144 4 79616778 2/2 232 RS1226491 633 GPR110 266977 6 47097807 1/1 1 RS10509119 988 ANK3 288 10 61482646 1/1 200 RS6988377 885 8 137390100 1/1 4 RS7665090 385 4 103908806 2/2 57 RS10509160 995 LOC644954 644954 10 63245218 2/2 2 RS1332925 969 C10orf112 340895 10 19836964 1/1 214 RS10516867 380 MGC48628 401145 4 91569270 1/1 1 RS9285122 1183 13 37809901 2/4 8 RS2150468 1184 UFM1 51569 13 37825888 3/3 241 RS9284616 360 FRAS1 80144 4 79349710 2/2 208 RS2969001 423 4 131140397 2/2 93 RS7794555 754 LOC653748 653748 7 153481879 2/2 214 RS10495785 158 LTBP1 4052 2 33472748 1/1 193 RS10492506 1192 CDADC1 81602 13 48722637 2/2 1 RS723043 157 LTBP1 4052 2 33453438 3/3 69 RS2323936 1186 13 38001773 2/4 8 RS2323937 1187 13 38001927 1/1 242 RS1851006 1278 UNC13C 440279 15 52691684 2/2 45 RS10509705 1010 10 97914784 2/2 1 RS10517294 333 4 33603028 1/1 215 RS6727480 231 2 197969377 2/2 18 RS2169942 565 5 117512644 1/1 206 RS10499227 686 LOC645492 645492 6 142224151 1/1 9 RS1577879 34 1 80924966 2/2 163 RS1029233 1452 21 32327571 1/1 23 RS7571668 178 FLJ16124 440867 2 66198829 2/2 106 RS10514845 1185 13 37910815 3/4 8 RS4775359 1287 RORA 6095 15 59175796 2/2 195 RS1889226 900 KIAA1797 54914 9 20670198 2/2 219 RS10517865 447 4 167008621 2/2 184 RS10516865 379 4 91462479 3/3 245 RS1004246 1405 19 16317260 1/1 93 RS10510714 270 3 40736947 1/1 233 RS4143188 1143 C12orf26 84190 12 81305253 1/1 1 RS340686 500 5 8440200 2/2 154 RS10486650 713 AAA1 404744 7 34413725 1/1 1 RS10499017 676 6 98831359 2/2 92 RS10517183 337 GABRB1 2560 4 47209761 2/2 8 RS10494826 98 LOC647219 647219 1 197817653 2/2 11 RS2254162 774 8 14632707 1/1 12 RS1887889 905 PGM5 5239 9 68275512 2/2 90 RS1013459 1362 GNAL 2774 18 11690534 1/1 211 RS4128923 461 ADAM29 11086 4 176264705 2/2 3 RS2072506 722 AMPH 273 7 38275635 1/1 214 RS2034022 1396 DOK6 220164 18 65341066 2/2 97 RS924993 880 8 128373681 1/1 1 RS10506869 1142 12 81247449 2/2 1 RS10505540 882 CCDC26 137196 8 130592619 2/2 1 RS265056 383 UNC5C 8633 4 96755318 2/2 211 RS10495520 124 2 5537475 2/2 4 RS6856098 331 PCDH7 5099 4 30797074 2/2 11 RS10503419 771 8 11164210 1/1 157 RS439269 897 9 14481347 2/2 196 RS720327 382 4 92066267 1/1 213 RS10513299 941 ASTN2 23245 9 117184531 1/1 185 RS1917952 429 4 137355240 2/2 75 RS10483252 1226 14 21052193 2/2 1 RS6733858 225 2 190290242 1/1 81 RS1429130 432 4 148581368 1/1 209 RS3118650 1194 13 49927325 1/1 234 RS1959736 1245 14 82487626 3/3 8 RS10511852 903 9 30227951 2/2 231 RS10508692 970 GPR158 57512 10 25677276 2/3 5 RS2147085 37 1 80971158 1/1 51 RS4611835 313 NAALADL2 254827 3 176610777 1/1 2 RS715428 1365 KIAA1772 80000 18 17131449 1/2 12 RS10516872 381 MGC48628 401145 4 91681918 1/1 218 RS9323955 1265 VRK1 7443 14 96364688 1/1 56 RS1844510 1241 KCNH5 27133 14 62287241 1/1 64 RS1204014 747 TAS2R16 50833 7 122228794 2/2 228 RS2785949 1195 13 53806676 1/1 124 RS2721304 559 5 113462331 1/1 186 RS10508096 1224 BIVM 54841 13 102258865 2/2 6 RS10510100 1029 10 123456734 2/2 233 RS9287120 96 1 188558913 2/2 5 RS1818711 1279 UNC13C 440279 15 52692074 1/1 80 RS10497689 224 2 188708247 1/3 5 RS10492139 1115 GRIN2B 2904 12 13877862 2/2 14 RS3886738 992 LOC644954 644954 10 63234254 1/1 2 RS10494214 85 1 119041077 2/2 205 RS6798797 271 3 40741966 1/1 229 RS935313 1266 15 27377574 1/1 52 RS1464452 443 4 157951744 1/1 7 RS2277456 1238 PYGL 5836 14 50447627 2/2 181 RS1367719 1447 21 27974532 1/1 124 RS7752110 620 6 23138143 2/2 9 RS4918842 1023 HABP2 3026 10 115306802 2/2 9 RS1025748 438 4 154921502 1/1 154 RS10514770 151 2 30524090 1/1 104 RS1442799 1298 15 96589992 2/2 215 RS2405708 428 4 137339327 1/1 51 RS7413158 53 GBP2 2634 1 89292717 1/1 6 RS1407466 889 9 7958548 1/1 165 RS2254764 1450 GRIK1 2897 21 30131325 3/3 3 RS539254 836 8 80079448 1/1 139 RS2333821 170 LOC646790 646790 2 44288177 2/2 112 RS1016579 881 8 129269143 1/1 2 RS10484518 698 6 164232489 3/3 25 RS6989370 770 8 10653990 2/2 58 RS10505777 1113 12 13378527 2/2 175 RS717806 160 2 36487186 1/1 11 RS1577302 968 C10orf112 340895 10 19690726 2/2 6 RS1869733 822 FAM77D 286183 8 63970954 2/2 161 RS1217656 759 CSMD1 64478 8 4293171 1/1 1 RS2838000 1455 BACE2 25825 21 41568388 1/1 20 RS6741304 175 LOC400954 400954 2 55099846 2/2 25 RS2223163 1438 21 15149849 2/2 14 RS4952999 169 PLEKHH2 130271 2 43841904 1/1 39 RS2973237 334 4 37294256 2/2 28 RS3124806 2 CAMTA1 23261 1 7703744 1/3 26 RS1485870 453 LOC442117 442117 4 173125585 2/2 157 RS10518405 413 4 123937959 1/1 2 RS10497650 223 2 185048541 2/4 5 RS10488693 1083 C11orf11 747 11 61241732 1/3 23 RS10507082 1148 12 96255332 1/1 14 RS10510715 269 3 40714716 2/2 2 RS4684321 256 3 1842614 1/1 227 RS829612 152 2 30542738 2/2 33 RS10489925 67 PAP2D 163404 1 99173344 2/2 10 RS735403 386 MANBA 4126 4 103910746 1/1 59 RS2217486 489 4 188707345 1/1 9 RS10485090 673 6 82882374 1/1 3 RS7181421 1291 15 77626966 2/2 97 RS3964705 1267 LOC440261 440261 15 28822861 1/1 158 RS1935720 68 1 99638912 3/3 191 RS1433450 1293 15 85342066 1/1 2 RS1452528 670 6 79155079 1/1 63 RS10486694 724 7 40687431 1/1 1 RS2089907 122 2 2454467 1/1 133 RS10484693 603 GMDS 2762 6 1855107 1/3 12 RS1922036 207 2 146473771 1/1 130 RS868691 971 10 25945882 2/2 211 RS745708 976 FRMPD2 143162 10 49115681 1/1 150 RS10502055 1104 11 104747888 2/2 72 RS1369763 1397 18 71200032 2/2 210 RS2825652 1441 21 19865219 2/2 239 RS10521241 1303 16 49914787 1/1 4 RS10486012 742 7 105824729 2/4 9 RS1852561 731 7 69770184 2/4 15 RS296032 200 2 123318299 2/2 8 RS10495667 141 VSNL1 7447 2 17745120 1/3 5 RS950796 198 2 123281107 1/1 159 RS10510155 1037 10 128313990 2/2 188 RS10511356 291 LSAMP 4045 3 117596428 2/2 219 RS1025927 831 TRPA1 8989 8 73125689 1/1 221 RS285098 1222 FARP1 10160 13 97625036 2/2 42 RS9315749 1188 13 39530110 2/2 27 RS3850079 1196 13 56263149 1/1 21 RS340680 499 5 8438180 1/1 12 RS10520754 1294 MCTP2 55784 15 92760413 2/2 66 RS950016 1244 14 81514393 2/2 220 RS1936671 97 1 189055410 2/2 139 RS1371076 1146 12 89063918 1/1 21 RS719025 1448 21 28674882 3/3 9 RS717694 442 4 156772800 2/2 8 RS2893569 723 POU6F2 11281 7 38839984 1/1 227 RS641445 1398 18 72182254 3/3 2 RS4697055 322 4 23943605 1/1 142 RS9318541 1206 13 77856249 2/2 24 RS720613 749 7 124046621 2/2 146 RS1465135 697 6 164166038 1/1 123 RS295577 524 mimitin 91942 5 60457592 2/2 2 RS7574093 176 2 56818904 1/3 10 RS10517442 351 4 59273158 2/2 5 RS7768538 630 HLA-DQB2 3120 6 32837799 1/1 85 RS1566728 1075 PTPRJ 5795 11 48121423 1/1 139 RS3805134 295 SLC15A2 6565 3 123100746 2/2 43 RS7075669 1018 10 107583390 1/1 59 RS10502056 1103 11 104677259 2/2 55 RS1385080 1271 15 44513999 3/3 225 RS10507553 1190 13 46687101 2/4 5 RS1411315 1207 13 78638797 1/1 21 RS7139422 1152 FLJ25323 374470 12 102339523 1/1 1 RS1235012 760 CSMD1 64478 8 4294524 2/2 210 RS7174236 1284 RORA 6095 15 58970994 2/2 8 RS1993745 1055 TMEM16C 63982 11 26376767 2/2 37 RS1341002 1264 14 94432505 2/2 102 RS10498032 239 ABCA12 26154 2 215779991 1/1 31 RS989177 748 7 124006837 2/2 15 RS1217654 761 CSMD1 64478 8 4294769 2/2 203 RS7453920 631 HLA-DQB2 3120 6 32837990 1/1 32 RS1604613 1197 13 69021604 2/2 47 RS548533 1462 LOC139060 139060 X 45600270 2/2 187 RS479554 1463 X 45608877 1/1 59 RS4686384 255 3 1036761 1/1 104 RS10506626 1128 TSPAN8 7103 12 69815758 1/1 18 RS198278 711 7 24021433 1/1 55 RS295525 525 5 60508623 2/2 2 RS1886452 1200 13 72884855 1/1 158 RS2009373 1415 CARD8 22900 19 53411226 2/2 44 RS6086149 1420 20 7586703 1/1 142 RS10500986 1053 LUZP2 338645 11 24592114 2/2 145 RS10497776 228 2 196795652 1/1 244 RS2832726 1451 21 30552005 1/1 78 RS10495519 123 2 5524537 1/1 6 RS10492135 1114 GRIN2B 2904 12 13777535 2/2 13 RS10508840 973 10 36638433 1/1 6 RS167164 199 2 123281157 2/2 157 RS967220 264 3 29275054 3/3 5 RS10493306 6 NFIA 4774 1 61389723 2/2 5 RS2111826 309 CLDN11 5010 3 171623548 1/3 39 RS722508 1084 11 62792962 1/1 46 RS7220359 1354 RGS9 8787 17 60614155 1/3 14 RS10490838 263 3 24574382 1/1 234 RS2069837 710 IL6 3569 7 22541267 1/1 217 RS1485871 454 LOC442117 442117 4 173125753 1/1 14 RS2113487 153 GALNT14 79623 2 31164203 1/1 87 RS10519370 425 4 137332061 2/2 78 RS1905155 556 5 113301097 3/3 116 RS3827702 1423 TASP1 55617 20 13446812 2/2 126 RS10500783 1049 11 13530190 2/2 199 RS724334 273 CAST1 26059 3 55933122 2/2 174 RS6852538 427 4 137338578 1/1 79 RS6954168 755 LOC653748 653748 7 153533800 2/2 241 RS10512680 509 FLJ39155 133584 5 38307189 1/1 62 RS10518649 424 4 135764876 2/2 182 RS2244327 899 9 18249760 2/2 89 RS1153350 1437 21 15008235 1/1 3 RS4510935 945 9 117364905 2/2 6 RS1942578 1402 18 73322001 2/2 51 RS953177 823 DNAJC5B 85479 8 67096174 2/2 222 RS7701903 549 5 97968838 2/2 3 RS309274 137 2 7151446 1/1 27 RS1556082 1215 GPC6 10082 13 93502465 1/1 7 RS2616170 809 8 20610425 1/1 32 RS10503626 808 PSD3 23362 8 18591364 1/1 2 RS2831853 1449 21 28781867 2/2 236 RS2969004 422 4 131139275 3/3 39 RS10501160 1070 LOC119710 119710 11 36611046 1/1 1 RS752355 213 2 176545532 1/1 15 RS1372338 936 ASTN2 23245 9 116620415 2/2 65 RS1931610 1019 LOC645254 645254 10 109813852 1/1 1 RS1641354 1311 16 50778711 1/1 36 RS6919514 688 UST 10090 6 149151922 3/4 43 RS10498836 654 6 66585591 2/2 186 RS1381181 1054 TMEM16C 63982 11 26340397 1/1 37 RS1881014 732 7 69770606 2/2 212 RS10501161 1072 LOC119710 119710 11 36628245 2/2 215 RS1351650 1040 11 7703386 2/2 63 RS10489249 88 1 168446178 2/2 182 RS10518089 351 SLC4A4 8671 4 72794260 2/2 136 RS4816018 1421 20 7604614 1/1 147 RS950085 1006 10 95592637 1/1 24 RS1823913 226 MYO1B 4430 2 191943553 2/2 147 RS2383024 898 C9orf39 54875 9 17477945 1/1 105 RS9306295 1458 22 33775788 1/1 206 RS10508842 974 10 36646002 2/2 7 RS725500 364 4 80236951 2/2 10 RS9326506 975 10 43388564 3/3 90 RS9312592 462 SPATA4 132851 4 177493018 2/2 7 RS10512935 304 EPHB1 2047 3 136107953 2/2 156 RS722569 963 10 10538667 1/1 42 RS1503453 833 STAU2 27067 8 74666062 3/3 173 RS719484 1228 14 26547587 1/1 172 RS2477035 965 10 10571483 1/1 41 RS10495033 112 ESRRG 2104 1 213264616 2/2 2 RS718993 1336 17 14433113 1/1 11 RS1607664 1410 ZNF429 353088 19 21497820 2/2 9 RS1073913 768 8 10649118 3/3 66 RS10510104 1030 ATE1 11101 10 123521812 2/2 5 RS1927404 1205 13 76845208 1/1 95 RS196584 715 KIAA1706 80820 7 36090936 2/2 208 RS9298895 902 LRRN6C 158038 9 28417657 1/3 34 RS2991463 1209 13 78682643 2/2 18 RS10501159 1069 LOC119710 119710 11 36583337 1/1 1 RS1541503 703 LOC285929 285929 7 7173834 2/2 201 RS4757441 1051 PLEKHA7 144100 11 16859250 2/2 193 RS9302933 1357 17 66750402 2/2 177 RS309275 136 2 7150593 3/3 32 RS10491279 578 GDF9 2661 5 132225999 1/1 3 RS10509153 989 10 63041318 2/2 2 RS10485864 702 SDK1 221935 7 3696897 2/2 187 RS10510156 1036 10 128294406 1/1 5 RS10520762 1295 15 93063543 2/2 169 RS7530592 82 VAV3 10451 1 107947761 3/3 96 RS1867584 985 10 49321355 2/2 75 RS10509772 1017 C10orf80 159686 10 106149295 2/2 58 RS6911443 675 6 98829624 1/1 98 RS9297984 821 8 59098733 3/3 5 RS10493822 52 GBP1 2633 1 89241701 2/2 5 RS165044 1272 15 44523246 1/1 101 RS1928274 632 GPR116 221395 6 46945349 1/1 11 RS10508554 967 SLC39A12 221074 10 18282641 2/2 27 RS958938 8 1 66985931 1/1 2 RS2964299 588 5 165876275 2/2 229 RS1861373 1150 12 96275336 1/1 46 RS1395817 431 4 148476328 1/3 27 RS497197 772 8 12981181 2/2 2 RS10498212 249 IRS1 3667 2 227476780 1/1 232 RS823986 579 FSTL4 23105 5 132894139 1/1 22 RS1544589 733 PTPN12 5782 7 76874004 1/1 55 RS7004663 834 STAU2 27067 8 74692946 1/1 166 RS4774367 1283 RORA 6095 15 58619313 2/2 131 RS6863889 528 5 73560159 1/1 225 RS868271 214 ZNF533 151126 2 180255606 2/2 43 RS1525489 745 7 122227424 2/2 1 RS548987 629 SLC17A3 10786 6 25977350 2/2 212 RS10501933 1100 CNTN5 53942 11 99284564 2/2 9 RS1477523 750 7 136262393 2/2 222 RS2163120 792 8 16165538 2/4 12 RS10506524 1124 MSRB3 253827 12 64070379 1/3 18 RS4131874 819 8 42051123 2/2 136 RS2981069 826 8 70100501 2/2 184 RS1460597 1383 DSG4 147409 18 27220516 2/2 14 RS10511729 901 9 23547227 1/1 90 RS1983726 86 LOC441900 441900 1 119800976 2/2 12 RS10511482 888 9 7512604 2/2 1 RS2711452 185 2 82108603 1/1 120 RS10497723 227 TMEFF2 23671 2 192817829 1/1 216 RS10500130 752 7 138273168 3/3 189 RS1841914 261 ZNF659 79750 3 21598635 1/1 47 RS1938105 652 6 66567647 1/1 6 RS1341001 1263 14 94432449 1/1 18 RS10488204 706 7 11930380 2/2 230 RS7670292 433 DCAMKL2 166614 4 151461475 2/2 159 RS7844425 818 8 32495159 1/1 101 RS10510344 259 GRM7 2917 3 7064629 1/3 34 RS10516032 590 LOC134541 134541 5 166726668 2/2 3 RS6852312 389 4 105871774 3/3 225 RS9317744 1176 13 22963766 2/4 11 RS4368350 211 2 167367090 2/2 4 RS7577293 186 2 85846940 1/1 13 RS10514263 545 EDIL3 10085 5 83426017 1/1 299 RS10514632 212 RAPGEF4 11069 2 173530419 1/1 6 RS1376499 674 6 98759316 3/3 70 RS7148756 1240 14 58616282 1/1 4 RS2165347 1317 16 58809040 2/2 24 RS1199292 741 ACN9 57001 7 96432248 2/2 33 RS1441541 490 5 3303352 1/1 5 RS171785 596 5 170994432 1/1 30 RS10484331 608 6 8940232 2/2 87 RS2572276 1389 18 39324404 1/1 23 RS10483323 1227 14 26354562 1/1 11 RS3859362 1382 DSG4 147409 18 27218666 2/2 14 RS10513765 316 PEX5L 51555 3 181027572 2/2 32 RS964059 879 8 124904538 3/3 159 RS2825583 1440 21 19734374 2/2 85 RS8137239 1456 LOC644802 644802 22 15504963 1/1 1 RS6699989 44 1 87784403 1/1 9 RS2396821 635 6 47183758 1/1 166 RS10507930 1212 13 82396265 1/3 6 RS7324065 1220 ABCC4 10257 13 94503308 1/3 13 RS1329983 29 1 73801814 1/1 3 RS7874576 896 9 12600410 1/3 5 RS10513275 308 3 147165932 2/2 192 RS1324088 628 6 25949101 2/2 212 RS10495466 118 FMN2 56776 1 236834608 2/2 227 RS718911 1286 RORA 6095 15 59169716 1/1 194 RS4952676 168 PLEKHH2 130271 2 43841634 1/1 100 RS10518774 1282 UNC13C 440279 15 52700466 1/1 61 RS488673 694 SYNE1 23345 6 152811716 2/2 88 RS3815035 1355 MAP2K6 5608 17 65043983 2/2 5 RS3890717 114 1 217860308 3/3 45 RS188014 1193 LOC647154 647154 13 49867924 1/3 15 RS10508318 957 10 7090365 1/1 8 RS472154 43 COL24A1 255631 1 86167436 2/2 19 RS9300024 1073 11 37240693 1/1 65 RS10512405 927 SVEP1 79987 9 110316352 2/2 19 RS7009058 820 SNTG1 54212 8 51656260 3/3 181 RS341148 696 TULP4 56995 6 158810407 2/2 101 RS9302288 1290 15 77462356 1/1 155 Rs10498604 1249 14 86238836 2/2 17 RS6812018 355 4 66863258 3/3 197 RS10514569 1325 CDH13 1012 16 82033605 3/4 13 RS3751462 1239 LOC283553 283553 14 50897971 1/1 150 RS987479 714 7 34729664 1/1 149 RS1233853 1334 FLJ34690 284034 17 12474944 1/1 2 RS979323 1248 14 84118710 1/1 40 RS962592 476 4 181367262 2/2 243 RS5962018 1459 X 6207596 2/2 210 RS362988 1422 SNAP25 6616 20 10229370 1/1 77 RS945849 933 C9orf84 158401 9 111585474 1/1 166 RS7078806 1026 10 11845599 1/1 224 RS8089476 1392 18 46107418 2/2 35 RS9293488 546 5 87103437 2/2 218 RS1340169 1198 13 71876062 3/4 9 RS6109935 1424 TASP1 55617 20 13467837 2/2 19 RS10502776 1385 PIK3C3 5289 18 37832275 1/1 237 RS1403635 257 CNTN4 152330 3 2264798 2/2 8 RS3800274 629 C6orf96 55005 6 151851306 3/3 13 RS1459914 280 3 67849940 3/3 203 RS1233775 1425 C20orf133 140733 20 15451543 2/3 137 RS9294240 672 6 82703881 1/1 19 RS1407390 931 C9orf84 158401 9 111544042 2/2 170 RS10495804 159 2 34169804 2/2 26 RS6477845 930 C9orf84 158401 9 111541877 1/1 3 RS10501158 1068 LOC119710 119710 11 36582180 1/1 217 RS1945654 1086 LOC646169 646169 11 80901934 2/2 186 RS3814860 1235 FBXO33 254170 14 38938397 3/3 160 RS2881836 234 AOX2 344454 2 201469088 3/3 110 RS1805781 1111 PHC1 1911 12 8957155 1/3 8 RS294665 197 2 123276926 2/2 159 RS3897748 113 1 214677604 2/2 170 RS10517222 332 4 30831187 1/1 151 RS10507083 1149 12 96255384 1/1 16 RS796892 296 3 123868092 2/2 19 RS7002137 769 8 10653610 2/2 180 RS7719212 501 5 23658681 2/2 231 RS713265 70 1 99649058 2/2 1 RS6848015 448 PALLD 23022 4 169822829 2/2 176 RS10495202 115 LOC644053 644053 1 219385670 1/1 146 RS4129693 142 2 18864906 2/2 148 RS4073474 294 IQCB1 9657 3 122990105 1/1 103 RS150344 1302 16 22728560 3/3 176 RS1915552 844 8 80237554 1/1 34 RS1440063 248 2 223677858 1/1 85 RS494739 685 6 137969137 2/2 209 RS2391476 421 4 130916643 3/3 4 RS2054915 1089 FLJ22104 65084 11 86668250 1/1 66 RS989766 1431 PTPRT 11122 20 40443639 2/2 129 RS7675645 352 4 59309086 1/1 167 RS1571502 65 PAP2D 163404 1 99137091 2/2 1 RS1661405 699 6 165561151 1/3 10 RS2675200 258 3 4118873 2/4 32 RS3905336 906 9 72699914 2/4 7 RS652238 1395 18 64109605 2/2 181 RS3852745 1301 GRIN2A 2903 16 10156361 1/1 12 RS10491948 895 9 11522517 2/2 228 RS10490414 177 2 56927557 2/4 8 RS3751337 1180 KIAA0774 23281 13 28796573 1/1 21 RS1041802 1446 21 27965603 3/3 124 RS10505725 1110 DCP1B 196513 12 1926624 2/2 131 RS1207613 1460 X 24327376 2/2 194 RS4981115 1230 NUBPL 80224 14 31240826 1/1 4 RS1150030 959 10 9405319 1/1 1 RS2217610 700 SDK1 221935 7 3503877 1/1 142 RS596255 837 8 80164544 2/2 22 RS7906587 1025 PNLIPRP3 119548 10 118221656 2/2 227 RS10489251 89 1 168449191 3/3 5 RS10509766 1016 NT5C2 22978 10 104916324 2/2 29 RS4890429 1387 RIT2 6014 18 38951479 1/1 129 RS7694034 377 MAPK10 5602 4 87647635 1/1 8 RS7963889 1134 12 73136950 1/1 31 RS286300 1404 LOC401898 401898 19 11658308 2/2 218 RS10493985 78 COL11A1 1301 1 103282453 1/3 7 RS6823379 335 4 41552790 1/1 237 RS499891 1076 GLYAT 10249 11 58246797 1/1 241 RS539085 1077 GLYAT 10249 11 58255401 2/2 241 RS2156348 1078 GLYATL2 219970 11 58360325 2/2 241 RS477892 1079 11 58375953 1/1 241 RS480413 1080 11 58376174 1/3 9 RS2856259 1081 11 58376529 1/3 9 RS4939237 1082 11 58419301 1/3 9 RS10502807 1386 RIT2 6014 18 38802002 2/2 185 RS10512282 923 GRIN3A 116443 9 101413888 1/1 205 RS10500585 1319 16 72882363 2/2 118 RS823638 934 C9orf84 158401 9 111622316 1/1 3 RS697902 318 3 192932251 2/2 91 RS10493987 77 COL11A1 1301 1 103278613 1/3 5 RS4733224 817 WRN 7486 8 31086911 1/1 90 RS2731239 1145 12 89061969 2/2 22 RS7459039 705 7 9668794 1/1 13 RS1156968 1233 14 38232528 2/2 194 RS7470491 932 C9orf84 158401 9 111569863 2/2 166 RS10485148 619 6 23080312 2/2 26 RS564896 143 FLJ21820 60526 2 20899161 2/2 23 RS666941 240 2 221567963 1/1 47 RS10506603 1126 PTPRR 5801 12 69367960 2/3 7 RS2669892 290 ZBTB20 26137 3 115817713 1/1 165 RS6477360 891 PTPRD 5789 9 8887230 1/1 69 RS10506602 1125 PTPRR 5801 12 69348510 2/2 227 RS10518821 1289 15 67669717 1/1 161 RS10508269 956 10 3903483 1/1 4 RS10512501 1353 TEX2 55852 17 59677087 1/1 1 RS757668 744 7 122175535 1/1 35 RS10518404 412 4 123936746 2/2 216 RS1813404 1246 14 84116590 2/2 114 RS10510020 1024 PNLIPRP3 119548 10 118221295 1/1 227 RS10510022 1027 10 118275623 1/1 227 RS10510023 1028 10 118275843 1/1 1 RS723855 1436 21 14771745 1/1 12 RS10491340 581 5 147370294 2/2 7 RS713266 69 1 99648777 2/2 217 RS2011688 83 SLC6A17 388662 1 110441446 2/2 211 RS2826847 1443 NCAM2 4685 21 21749297 2/2 195 RS869206 1071 LOC119710 119710 11 36615190 2/2 218 RS1355296 1268 15 34027338 1/1 3 RS9298249 835 8 7620083 1/1 1 RS580758 390 4 105928555 1/1 4 RS10517618 439 4 156628360 3/3 122 RS979322 1247 14 84118568 2/2 82 RS9298675 886 9 1242572 2/2 1 RS2863171 1074 11 45207308 3/3 5 RS1459506 446 4 166905208 1/1 29 RS1822539 924 9 103821410 2/2 177 RS10488521 740 CDK6 1021 7 91987519 2/2 7 RS10504894 864 8 91585612 1/1 24 RS2255751 964 10 10568976 2/2 45 RS7827548 765 CSMD1 64478 8 4593724 2/2 111 RS1451336 677 6 98849320 1/1 74 RS10493355 7 ROR1 4919 1 64255969 1/1 1 RS1926029 1014 NT5C2 22978 10 104845660 2/2 129 RS2572269 1388 18 39310973 1/1 22 RS10507118 1151 TMEM16D 121601 12 99722902 2/2 4 RS_id avg1 g2 n2 avg2 g3 n3 avg3 F dft dfe P-value RS1410126 1.97 1/2 60 1.23 2/2 181 1.3 15.35 2 243 5.28E−07 RS10498321 1.27 1/2 59 1.36 2/2 1 2.77 15.31 2 244 5.45E−07 RS744832 2.77 1/3 53 1.36 3/3 192 1.27 14.8 2 243 8.61E−07 RS10485909 1.3 2/4 20 1.21 4/4 1 2.77 13.9 2 245 1.91E−06 RS2195989 1.76 2/4 53 1.35 4/4 178 1.26 13.72 2 237 2.30E−06 RS1399503 1.29 3/4 41 1.24 4/4 2 2.33 13.64 2 244 2.42E−06 RS4102401 2.77 2/4 19 1.36 4/4 229 1.29 13.6 2 246 2.50E−06 RS10518533 1.96 1/2 104 1.3 2/2 126 1.26 13.6 2 232 2.60E−06 RS10504433 1.28 2/4 53 1.33 4/4 1 2.77 13.51 2 247 2.70E−06 RS10516418 1.29 1/3 27 1.36 3/3 1 2.77 13.43 2 238 2.98E−06 RS2230133 1.3 2/3 43 1.25 3/3 1 2.77 13.35 2 246 3.13E−06 RS10498260 2.77 1/3 38 1.3 3/3 192 1.28 13.31 2 228 3.41E−06 RS10486467 2.77 1/3 9 1.21 3/3 237 1.29 13.22 2 244 3.54E−06 RS2120650 1.29 1/3 26 1.32 3/3 1 2.77 13.07 2 247 4.02E−06 RS1467596 2.77 1/3 12 1.26 3/3 235 1.29 13.06 2 245 4.08E−06 RS2170398 2.77 2/4 41 1.31 4/4 206 1.29 13.02 2 245 4.23E−06 RS352766 2.77 2/4 30 1.27 4/4 218 1.29 12.97 2 246 4.41E−06 RS10488888 2.77 2/4 6 1.33 4/4 242 1.29 12.95 2 246 4.49E−06 RS4960221 1.29 2/4 61 1.31 4/4 1 2.77 12.94 2 245 4.55E−06 RS10494066 1.89 2/4 86 1.29 4/4 155 1.28 12.94 2 244 4.56E−06 RS10517155 2.77 2/4 51 1.29 4/4 198 1.29 12.92 2 247 4.61E−06 RS9303878 1.3 1/4 34 1.24 4/4 2 2.32 12.82 2 235 5.20E−06 RS10510995 2.77 1/3 12 1.27 3/3 232 1.3 12.77 2 242 5.34E−06 RS718759 2.77 2/3 26 1.27 3/3 205 1.3 12.54 2 229 6.79E−06 RS1480145 1.28 2/3 12 1.67 0/0 0 0 20.78 1 248 8.10E−06 RS10485110 1.87 3/4 70 1.29 4/4 171 1.27 12.1 2 244 9.76E−06 RS1902049 1.27 3/4 92 1.25 4/4 18 1.61 12.06 2 243 1.01E−05 RS2235216 1.87 1/3 72 1.3 3/3 150 1.28 11.62 2 225 1.58E−05 RS470559 1.94 2/3 53 1.19 3/3 194 1.32 11.55 2 247 1.60E−05 RS10503573 1.28 1/2 14 1.63 0/0 0 0 19.29 1 248 1.66E−05 RS2854946 1.66 2/3 66 1.3 3/3 134 1.25 11.44 2 210 1.92E−05 RS4631686 1.74 3/3 237 1.29 0/0 0 0 18.76 1 243 2.17E−05 RS6954679 1.27 1/3 38 1.35 3/3 3 2.05 11.12 2 245 2.38E−05 RS866651 1.29 2/3 72 1.25 3/3 10 1.71 11.01 2 246 2.63E−05 RS2255565 1.29 1/2 55 1.25 2/2 4 1.96 10.93 2 247 2.83E−05 RS10483988 1.29 2/4 66 1.26 4/4 4 1.96 10.81 2 245 3.17E−05 RS387661 2.25 2/4 39 1.27 4/4 208 1.29 10.66 2 246 3.63E−05 RS2029259 1.26 1/2 49 1.41 2/2 4 1.77 10.63 2 244 3.75E−05 RS2113515 1.29 2/4 57 1.27 4/4 4 1.96 10.6 2 245 3.84E−05 RS10503586 1.28 1/3 12 1.65 0/0 0 0 17.39 1 242 4.24E−05 RS285406 1.27 2/4 22 1.55 0/0 0 0 17.25 1 248 4.51E−05 RS6811055 1.27 2/4 102 1.4 4/4 54 1.18 10.43 2 228 4.63E−05 RS397618 1.28 2/4 14 1.61 0/0 0 0 17.06 1 248 4.95E−05 RS896990 2.03 1/2 41 1.35 2/2 198 1.28 10.31 2 239 5.07E−05 RS250387 1.24 1/3 67 1.43 3/3 8 1.4 10.24 2 244 5.37E−05 RS9299445 1.27 2/4 34 1.38 4/4 3 1.97 10.01 2 240 6.68E−05 RS10516673 1.28 1/3 13 1.62 0/0 0 0 16.13 1 248 7.84E−05 RS10520350 2.38 2/3 18 1.45 3/3 230 1.28 9.8 2 246 8.03E−05 RS9299446 1.97 1/2 37 1.37 2/2 210 1.27 9.7 2 247 8.80E−05 RS2170116 1.27 2/4 19 1.56 0/0 0 0 15.88 1 248 8.88E−05 RS4888946 1.27 1/4 62 1.32 4/4 3 2.01 9.67 2 239 9.15E−05 RS10495783 1.44 2/4 130 1.23 4/4 67 1.32 9.65 2 244 9.26E−05 RS10516834 1.95 1/3 25 1.18 3/3 217 1.3 9.34 2 242 1.24E−04 RS2207139 1.74 2/4 76 1.26 4/4 164 1.29 9.33 2 245 1.24E−04 RS8054578 2.01 1/3 65 1.32 3/3 176 1.27 9.33 2 241 1.25E−04 RS7897958 1.77 1/4 63 1.24 4/4 179 1.3 9.31 2 245 1.27E−04 RS1121640 1.28 2/4 28 1.36 4/4 2 2.15 9.26 2 245 1.33E−04 RS10493425 1.28 1/2 13 1.23 2/2 2 2.12 9.28 2 228 1.33E−04 RS965158 1.64 4/4 239 1.28 0/0 0 0 15 1 248 1.38E−04 RS10482871 1.8 3/3 245 1.29 0/0 0 0 15 1 248 1.38E−04 RS10503572 1.81 3/3 243 1.29 0/0 0 0 14.97 1 246 1.40E−04 RS9316436 1.34 2/3 58 1.16 3/3 5 1.31 9.15 2 243 1.47E−04 RS812800 1.71 1/3 73 1.28 3/3 163 1.28 9.11 2 242 1.53E−04 RS10508377 1.31 1/3 29 1.18 3/3 1 2.38 9.05 2 245 1.61E−04 RS10500985 1.73 1/2 75 1.31 2/2 146 1.26 8.98 2 224 1.77E−04 RS3116231 2.12 2/3 49 1.34 3/3 196 1.27 8.95 2 244 1.77E−04 RS1490125 1.34 3/4 66 1.18 0/0 0 0 14.45 1 245 1.82E−04 RS8049647 1.26 1/3 76 1.34 3/3 7 1.71 8.91 2 246 1.84E−04 RS10517562 1.19 1/3 116 1.23 3/3 106 1.38 8.83 2 243 1.99E−04 RS2222654 1.19 1/3 88 1.37 3/3 54 1.34 8.83 2 216 2.06E−04 RS2357344 1.83 2/4 26 1.3 4/4 189 1.27 8.8 2 217 2.11E−04 RS4869279 1.31 2/4 75 1.23 4/4 4 1.83 8.75 2 244 2.14E−04 RS11232919 2.15 2/4 64 1.27 4/4 183 1.3 8.74 2 246 2.15E−04 RS9315157 1.38 1/3 49 1.45 3/3 193 1.25 8.71 2 245 2.22E−04 RS1675904 1.27 2/4 30 1.35 4/4 1 2.38 8.69 2 232 2.29E−04 RS1502887 1.27 2/4 41 1.46 0/0 0 0 13.98 1 246 2.30E−04 RS1380835 1.31 3/4 65 1.22 4/4 3 1.88 8.61 2 247 2.43E−04 RS10509764 1.37 2/4 96 1.21 4/4 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1.25 3/4 74 1.39 4/4 9 1.24 5.68 2 239 3.89E−03 RS2825583 1.22 2/4 107 1.37 4/4 53 1.28 5.67 2 242 3.92E−03 RS8137239 1.19 1/3 19 1.52 3/3 221 1.28 5.67 2 238 3.93E−03 RS6699989 1.55 1/3 62 1.36 3/3 175 1.26 5.66 2 243 3.96E−03 RS2396821 1.25 1/3 69 1.4 3/3 10 1.33 5.66 2 242 3.96E−03 RS10507930 1.65 3/3 244 1.29 0/0 0 0 8.46 1 248 3.96E−03 RS7324065 1.53 3/3 234 1.28 0/0 0 0 8.45 1 245 3.98E−03 RS1329983 0.93 1/3 52 1.39 3/3 193 1.27 5.65 2 245 3.99E−03 RS7874576 1.68 3/3 241 1.29 0/0 0 0 8.44 1 244 4.01E−03 RS10513275 1.29 2/4 50 1.28 4/4 7 1.67 5.64 2 246 4.03E−03 RS1324088 1.28 2/4 36 1.35 4/4 1 2.2 5.64 2 246 4.03E−03 RS10495466 1.28 2/4 20 1.51 4/4 1 1.39 5.64 2 245 4.03E−03 RS718911 1.3 1/3 51 1.27 3/3 2 2 5.64 2 244 4.03E−03 RS4952676 1.22 1/3 107 1.35 3/3 39 1.3 5.64 2 243 4.03E−03 RS10518774 1.41 1/3 127 1.27 3/3 55 1.25 5.64 2 240 4.04E−03 RS488673 1.31 2/4 87 1.22 4/4 32 1.43 5.66 2 204 4.05E−03 RS3815035 1.39 2/4 48 1.42 4/4 195 1.26 5.63 2 245 4.07E−03 RS3890717 1.4 3/4 124 1.32 4/4 76 1.21 5.63 2 242 4.07E−03 RS188014 1.51 3/3 229 1.28 0/0 0 0 8.41 1 242 4.07E−03 RS10508318 1.38 1/2 81 1.2 2/2 146 1.34 5.63 2 232 4.10E−03 RS472154 1.29 2/3 78 1.2 3/3 150 1.34 5.62 2 244 4.11E−03 RS9300024 1.24 1/3 113 1.37 3/3 69 1.24 5.62 2 244 4.11E−03 RS10512405 1.45 2/4 54 1.39 4/4 127 1.26 5.65 2 197 4.11E−03 RS7009058 1.31 3/4 56 1.2 4/4 9 1.5 5.62 2 243 4.11E−03 RS341148 1.35 2/4 49 1.24 4/4 28 1.16 5.67 2 175 4.11E−03 RS9302288 1.34 1/3 83 1.21 3/3 7 1.43 5.62 2 242 4.11E−03 Rs10498604 1.27 2/4 80 1.21 4/4 153 1.35 5.61 2 247 4.14E−03 RS6812018 1.28 3/4 44 1.34 4/4 5 1.72 5.61 2 243 4.15E−03 RS10514569 1.07 4/4 180 1.31 0/0 0 0 8.41 1 191 4.17E−03 RS3751462 1.34 1/4 46 1.18 4/4 10 1.23 5.63 2 203 4.17E−03 RS987479 1.28 1/3 78 1.29 3/3 14 1.54 5.6 2 238 4.20E−03 RS1233853 2 1/3 26 1.31 3/3 207 1.29 5.6 2 232 4.22E−03 RS979323 1.43 1/2 104 1.31 2/2 85 1.23 5.6 2 226 4.23E−03 RS962592 1.29 2/4 6 1.65 0/0 0 0 8.33 1 247 4.24E−03 RS5962018 1.28 4/4 35 1.44 0/0 0 0 8.33 1 243 4.25E−03 RS362988 1.36 1/3 87 1.3 3/3 54 1.19 5.6 2 215 4.26E−03 RS945849 1.3 1/3 80 1.28 3/3 3 1.86 5.58 2 246 4.27E−03 RS7078806 1.29 1/3 21 1.35 3/3 1 2.26 5.58 2 243 4.27E−03 RS8089476 1.29 2/4 115 1.24 4/4 95 1.37 5.58 2 242 4.27E−03 RS9293488 1.28 2/4 13 1.51 0/0 0 0 8.32 1 229 4.30E−03 RS1340169 1.58 4/4 239 1.29 0/0 0 0 8.3 1 246 4.31E−03 RS6109935 1.52 2/4 84 1.29 4/4 123 1.27 5.58 2 223 4.32E−03 RS10502776 1.31 1/3 13 1.06 0/0 0 0 8.29 1 248 4.33E−03 RS1403635 1.64 2/4 74 1.27 4/4 168 1.29 5.56 2 247 4.35E−03 RS3800274 1.56 3/4 85 1.3 4/4 133 1.27 5.57 2 228 4.35E−03 RS1459914 1.3 3/4 44 1.24 4/4 1 2.2 5.56 2 245 4.35E−03 RS1233775 1.34 2/4 105 1.24 4/4 6 1.05 5.56 2 245 4.35E−03 RS9294240 1.2 1/3 81 1.38 3/3 143 1.26 5.56 2 240 4.36E−03 RS1407390 1.29 2/4 76 1.28 4/4 3 1.86 5.55 2 246 4.39E−03 RS10495804 1.43 2/4 105 1.24 4/4 117 1.33 5.55 2 245 4.39E−03 RS6477845 1.86 1/3 75 1.28 3/3 170 1.29 5.55 2 245 4.39E−03 RS10501158 1.28 1/3 30 1.32 3/3 1 2.26 5.55 2 245 4.39E−03 RS1945654 1.3 2/3 58 1.27 3/3 3 1.86 5.55 2 244 4.39E−03 RS3814860 1.26 3/4 75 1.4 4/4 11 1.22 5.55 2 243 4.40E−03 RS2881836 1.22 3/4 106 1.35 4/4 21 1.38 5.55 2 234 4.42E−03 RS1805781 1.6 3/3 238 1.29 0/0 0 0 8.25 1 244 4.43E−03 RS294665 1.26 2/4 78 1.38 4/4 8 1.17 5.54 2 242 4.44E−03 RS3897748 1.33 2/3 67 1.2 3/3 6 1.19 5.54 2 240 4.45E−03 RS10517222 1.25 1/3 81 1.32 3/3 15 1.5 5.53 2 244 4.48E−03 RS10507083 1.08 1/3 82 1.27 3/3 145 1.33 5.53 2 240 4.49E−03 RS796892 1.29 2/4 108 1.37 4/4 122 1.24 5.52 2 246 4.52E−03 RS7002137 1.26 2/3 65 1.38 3/3 4 1.59 5.52 2 246 4.52E−03 RS7719212 1.29 2/3 16 1.4 3/3 1 2.2 5.52 2 245 4.52E−03 RS713265 2.26 2/4 19 1.34 4/4 224 1.29 5.52 2 241 4.53E−03 RS6848015 1.3 2/3 64 1.24 3/3 4 1.74 5.52 2 241 4.53E−03 RS10495202 1.25 1/3 90 1.36 3/3 14 1.44 5.51 2 247 4.56E−03 RS4129693 1.29 2/4 90 1.27 4/4 11 1.59 5.51 2 246 4.56E−03 RS4073474 1.34 1/3 109 1.23 3/3 37 1.37 5.51 2 246 4.56E−03 RS150344 1.27 3/4 62 1.34 4/4 7 1.61 5.51 2 242 4.57E−03 RS1915552 1.33 1/4 133 1.34 4/4 75 1.2 5.51 2 239 4.58E−03 RS1440063 1.37 1/3 98 1.23 3/3 39 1.25 5.52 2 219 4.58E−03 RS494739 1.27 2/4 36 1.45 4/4 3 1.19 5.5 2 245 4.61E−03 RS2391476 1.18 3/4 43 1.43 4/4 198 1.27 5.5 2 242 4.61E−03 RS2054915 1.26 1/2 128 1.35 2/2 46 1.19 5.5 2 237 4.63E−03 RS989766 1.27 2/3 62 1.28 3/3 27 1.48 5.51 2 215 4.64E−03 RS7675645 1.26 1/3 76 1.35 3/3 5 1.63 5.49 2 245 4.65E−03 RS1571502 1.03 2/4 46 1.43 4/4 199 1.27 5.49 2 243 4.66E−03 RS1661405 1.56 3/3 240 1.29 0/0 0 0 8.15 1 248 4.67E−03 RS2675200 1.16 4/4 218 1.32 0/0 0 0 8.14 1 248 4.70E−03 RS3905336 1.61 4/4 242 1.28 0/0 0 0 8.14 1 247 4.70E−03 RS652238 1.33 2/4 55 1.19 4/4 11 1.22 5.48 2 244 4.70E−03 RS3852745 1.02 1/2 106 1.3 2/2 127 1.32 5.48 2 242 4.70E−03 RS10491948 1.28 2/3 11 1.55 0/0 0 0 8.14 1 237 4.71E−03 RS10490414 1.59 4/4 239 1.29 0/0 0 0 8.13 1 245 4.73E−03 RS3751337 1.11 1/3 107 1.34 3/3 121 1.29 5.47 2 246 4.74E−03 RS1041802 1.26 3/4 102 1.37 4/4 21 1.19 5.47 2 244 4.74E−03 RS10505725 1.32 2/4 90 1.23 4/4 20 1.46 5.47 2 238 4.76E−03 RS1207613 1.27 3/3 44 1.41 0/0 0 0 8.12 1 236 4.76E−03 RS4981115 1.77 1/3 31 1.33 3/3 199 1.28 5.47 2 231 4.77E−03 RS1150030 1.19 1/3 29 1.47 3/3 219 1.27 5.46 2 246 4.78E−03 RS2217610 1.25 1/3 77 1.39 3/3 11 1.27 5.47 2 227 4.78E−03 RS596255 1.44 2/3 97 1.34 3/3 129 1.24 5.46 2 245 4.79E−03 RS7906587 1.29 2/4 20 1.27 4/4 1 2.26 5.46 2 245 4.79E−03 RS10489251 1.71 3/4 58 1.25 4/4 183 1.3 5.46 2 243 4.79E−03 RS10509766 1.25 2/4 93 1.24 4/4 123 1.36 5.46 2 242 4.79E−03 RS4890429 1.25 1/3 94 1.33 3/3 22 1.46 5.46 2 242 4.79E−03 RS7694034 1.23 1/3 68 1.2 3/3 167 1.34 5.46 2 240 4.80E−03 RS7963889 1.36 1/3 94 1.34 3/3 95 1.21 5.47 2 217 4.81E−03 RS286300 1.27 2/4 30 1.46 4/4 1 1.09 5.45 2 246 4.83E−03 RS10493985 1.61 3/3 243 1.29 0/0 0 0 8.08 1 248 4.85E−03 RS6823379 1.28 1/3 13 1.53 0/0 0 0 8.08 1 248 4.85E−03 RS499891 1.29 1/3 9 1.58 0/0 0 0 8.07 1 248 4.87E−03 RS539085 1.29 2/3 9 1.58 0/0 0 0 8.07 1 248 4.87E−03 RS2156348 1.29 2/4 9 1.58 0/0 0 0 8.07 1 248 4.87E−03 RS477892 1.29 1/3 9 1.58 0/0 0 0 8.07 1 248 4.87E−03 RS480413 1.58 3/3 241 1.29 0/0 0 0 8.07 1 248 4.87E−03 RS2856259 1.58 3/3 241 1.29 0/0 0 0 8.07 1 248 4.87E−03 RS4939237 1.58 3/3 241 1.29 0/0 0 0 8.07 1 248 4.87E−03 RS10502807 1.28 2/4 40 1.32 4/4 5 1.7 5.45 2 227 4.88E−03 RS10512282 1.32 1/2 38 1.16 2/2 3 1.53 5.44 2 243 4.88E−03 RS10500585 1.36 2/4 111 1.24 4/4 14 1.21 5.44 2 240 4.89E−03 RS823638 1.86 1/3 59 1.28 3/3 160 1.29 5.45 2 219 4.90E−03 RS697902 1.26 2/4 82 1.24 4/4 32 1.43 5.46 2 202 4.90E−03 RS10493987 1.67 3/3 242 1.29 0/0 0 0 8.06 1 245 4.91E−03 RS4733224 1.22 1/3 100 1.3 3/3 41 1.4 5.44 2 228 4.92E−03 RS2731239 1.29 2/4 116 1.23 4/4 112 1.36 5.43 2 247 4.92E−03 RS7459039 1.29 1/3 104 1.23 3/3 131 1.35 5.43 2 245 4.93E−03 RS1156968 1.26 2/4 51 1.41 4/4 3 1.49 5.43 2 245 4.93E−03 RS7470491 1.3 2/4 78 1.28 4/4 3 1.86 5.43 2 244 4.93E−03 RS10485148 1.39 2/4 98 1.35 4/4 121 1.24 5.43 2 242 4.93E−03 RS564896 1.24 2/4 106 1.36 4/4 113 1.24 5.43 2 239 4.94E−03 RS666941 1.21 1/4 112 1.27 4/4 75 1.38 5.43 2 231 4.96E−03 RS10506603 1.62 3/3 237 1.29 0/0 0 0 8.04 1 242 4.96E−03 RS2669892 1.25 1/3 73 1.39 3/3 9 1.32 5.42 2 244 4.98E−03 RS6477360 1.35 1/3 103 1.22 3/3 68 1.34 5.42 2 237 4.99E−03 RS10506602 1.28 2/3 7 1.6 0/0 0 0 8.03 1 232 5.01E−03 RS10518821 1.29 1/3 82 1.28 3/3 6 1.69 5.41 2 246 5.02E−03 RS10508269 1.19 1/2 37 1.44 2/2 206 1.27 5.41 2 244 5.02E−03 RS10512501 2.15 1/3 28 1.21 3/3 218 1.3 5.41 2 244 5.02E−03 RS757668 1.45 1/3 120 1.29 3/3 90 1.26 5.41 2 242 5.03E−03 RS10518404 1.3 2/4 21 1.24 4/4 2 1.97 5.41 2 236 5.04E−03 RS1813404 1.23 2/4 101 1.33 4/4 23 1.43 5.41 2 235 5.05E−03 RS10510020 1.29 1/3 22 1.33 3/3 1 2.26 5.4 2 247 5.07E−03 RS10510022 1.29 1/3 22 1.33 3/3 1 2.26 5.4 2 247 5.07E−03 RS10510023 2.26 1/3 22 1.33 3/3 227 1.29 5.4 2 247 5.07E−03 RS723855 1.53 1/3 98 1.31 3/3 118 1.25 5.41 2 225 5.07E−03 RS10491340 1.6 2/4 31 1.2 4/4 202 1.3 5.4 2 237 5.09E−03 RS713266 1.29 2/4 31 1.32 4/4 1 2.26 5.39 2 246 5.12E−03 RS2011688 1.29 2/4 37 1.28 4/4 1 2.26 5.39 2 246 5.12E−03 RS2826847 1.29 2/4 50 1.32 4/4 1 2.26 5.39 2 243 5.12E−03 RS869206 1.29 2/4 19 1.32 4/4 1 2.26 5.39 2 235 5.14E−03 RS1355296 1.85 1/3 41 1.32 3/3 193 1.29 5.39 2 234 5.15E−03 RS9298249 2.26 1/3 13 1.25 3/3 236 1.3 5.38 2 247 5.16E−03 RS580758 1.75 1/2 42 1.34 2/2 203 1.28 5.38 2 246 5.17E−03 RS10517618 1.24 3/4 83 1.31 4/4 24 1.45 5.39 2 226 5.17E−03 RS979322 1.24 2/4 124 1.29 4/4 41 1.42 5.38 2 244 5.17E−03 RS9298675 2.15 2/4 35 1.21 4/4 208 1.3 5.38 2 241 5.18E−03 RS2863171 1.57 3/4 41 1.41 4/4 172 1.27 5.39 2 215 5.20E−03 RS1459506 1.22 1/3 104 1.37 3/3 83 1.25 5.39 2 213 5.21E−03 RS1822539 1.26 2/4 47 1.42 4/4 7 1.22 5.38 2 228 5.21E−03 RS10488521 1.65 2/4 58 1.25 4/4 185 1.3 5.37 2 247 5.21E−03 RS10504894 1.49 1/3 107 1.27 3/3 110 1.29 5.37 2 238 5.24E−03 RS2255751 1.16 2/4 121 1.32 4/4 64 1.33 5.37 2 227 5.26E−03 RS7827548 1.23 2/3 109 1.35 3/3 29 1.36 5.36 2 246 5.27E−03 RS1451336 1.29 1/3 131 1.26 3/3 43 1.43 5.36 2 245 5.27E−03 RS10493355 0.97 1/3 37 1.44 3/3 210 1.27 5.35 2 245 5.32E−03 RS1926029 1.36 2/4 56 1.21 4/4 12 1.22 5.38 2 194 5.32E−03 RS2572269 1.47 1/3 90 1.24 3/3 135 1.3 5.35 2 244 5.32E−03 RS10507118 1.64 2/3 42 1.19 3/3 140 1.32 5.38 2 183 5.37E−03

TABLE 4 The most significant haplotype regions for HDL based on HaploRec + HPM analysis. RS_id SEQ_ID_no Gene Gene_id Chr Position P-value RS10518315 24 1 69591823 9.00E−05 RS2181719 36 1 80970894 9.00E−05 RS10516673 370 HNRPD 3184 4 83635972 9.00E−05 RS2069080 371 LOC391672 391672 4 83679770 9.00E−05 RS2029259 484 4 188422292 9.00E−05 RS2195989 872 ANGPT1 284 8 108555088 9.00E−05 RS10493677 33 1 80890427 1.00E−04 RS1577879 34 1 80924966 1.00E−04 RS10489696 35 1 80942453 1.00E−04 RS1352276 483 4 188415169 1.00E−04 RS963204 859 CNGB3 54714 8 87658121 1.00E−04 RS9297941 860 CNGB3 54714 8 87727855 1.00E−04 RS2147085 37 1 80971158 2.00E−04 RS2288338 369 HNRPD 3184 4 83631813 2.00E−04 RS9296540 638 6 47418964 2.00E−04 RS9296545 639 6 47433570 2.00E−04 RS10504709 848 8 80781919 2.00E−04 RS6992703 850 8 80831834 2.00E−04 RS10507326 1171 13 22616744 2.00E−04 RS1998846 25 1 69613578 3.00E−04 RS841665 32 1 80889752 3.00E−04 RS4847303 56 ABCD3 5825 1 94602933 3.00E−04 RS3770874 165 CRIM1 51232 2 36595648 3.00E−04 RS7695741 372 LOC391672 391672 4 83680241 3.00E−04 RS10516562 400 4 111663867 3.00E−04 RS2979710 849 8 80814997 3.00E−04 RS10504826 861 CNGB3 54714 8 87759135 3.00E−04 RS1283713 870 ANGPT1 284 8 108535493 3.00E−04 RS1283726 871 ANGPT1 284 8 108545032 3.00E−04 RS1881740 979 10 49221566 3.00E−04 RS2590386 980 10 49255436 3.00E−04 RS10508901 981 MAPK8 5599 10 49297404 3.00E−04 RS10493456 23 1 69591130 4.00E−04 RS1749541 57 ABCD3 5825 1 94670399 4.00E−04 RS756203 166 CRIM1 51232 2 36598324 4.00E−04 RS1433171 873 ANGPT1 284 8 108561416 4.00E−04 RS4770403 1173 SGCG 6445 13 22653127 4.00E−04 RS1014938 718 7 37714392 5.00E−04 RS10503573 780 MSR1 4481 8 16047855 5.00E−04 RS10503586 803 8 16792998 5.00E−04 RS974279 858 CNGB3 54714 8 87657635 5.00E−04 RS7850478 946 9 117366392 5.00E−04 RS10491855 947 9 117375274 5.00E−04 RS727081 1172 13 22630199 5.00E−04 RS787494 13 1 67797607 6.00E−04 RS848504 164 CRIM1 51232 2 36567045 6.00E−04 RS9312601 467 4 177742191 6.00E−04 RS1383162 795 8 16181469 6.00E−04 RS1480145 796 8 16181494 6.00E−04 RS970633 862 CNGB3 54714 8 87759864 6.00E−04 RS10505108 874 ANGPT1 284 8 108564233 6.00E−04 RS2435307 1371 NPC1 4864 18 19381908 6.00E−04 RS976000 485 4 188603100 7.00E−04 RS10520904 503 5 24966531 7.00E−04 RS1493479 504 5 25023525 7.00E−04 RS10498717 624 6 23833783 7.00E−04 RS1484751 781 MSR1 4481 8 16064328 7.00E−04 RS10503576 794 8 16179617 7.00E−04 RS1112268 978 10 49217160 7.00E−04 RS2896587 1044 11 11726440 7.00E−04 RS10491185 1348 17 58614495 7.00E−04 RS7523565 12 1 67783013 8.00E−04 RS243965 399 4 111647482 8.00E−04 RS2333467 465 4 177731837 8.00E−04 RS921691 466 4 177735818 8.00E−04 RS1158815 482 4 188232341 8.00E−04 RS1547641 623 6 23833200 8.00E−04 RS2182068 625 6 23845925 8.00E−04 RS6938470 640 6 47446050 8.00E−04 RS351572 782 MSR1 4481 8 16065839 8.00E−04 RS665889 915 9 85011765 8.00E−04 RS10500747 1045 11 11728465 8.00E−04 RS2447455 1349 TANC2 26115 17 58623570 8.00E−04 RS10502440 1372 LAMA3 3909 18 19583575 8.00E−04 RS696619 58 F3 2152 1 94717241 9.00E−04 RS3770899 163 CRIM1 51232 2 36566423 9.00E−04 RS3772781 300 KALRN 8997 3 125870129 9.00E−04 RS10518393 407 4 122870458 9.00E−04 RS1021019 408 4 122888607 9.00E−04 RS1462069 486 4 188639576 9.00E−04 RS2873911 505 5 25065918 9.00E−04 RS1052981 719 SFRP4 6424 7 37719741 9.00E−04 RS1915546 841 8 80202606 9.00E−04 RS10491186 1347 17 58558080 9.00E−04 RS2460110 1350 TANC2 26115 17 58672929 9.00E−04 RS948435 1373 LAMA3 3909 18 19637770 9.00E−04 RS787493 14 1 67797740 1.00E−03 RS1418005 26 1 69659645 1.00E−03 RS891251 131 2 5958628 1.00E−03 RS2291079 301 ITGB5 3693 3 125965779 1.00E−03 RS309753 468 4 177749792 1.00E−03 RS2118763 513 5 44823303 1.00E−03 RS35943 520 ARL15 54622 5 53638314 1.00E−03 RS7701690 521 5 53655784 1.00E−03 RS224938 538 5 81752932 1.00E−03 RS10491243 539 5 81770568 1.00E−03 RS2461055 851 8 80832082 1.00E−03 RS10513299 941 ASTN2 23245 9 117184531 1.00E−03 RS10508902 982 MAPK8 5599 10 49311187 1.00E−03 RS397618 1063 TMEM16C 63982 11 26546754 1.00E−03 RS293970 1064 TMEM16C 63982 11 26549918 1.00E−03 RS2278016 1308 16 50674510 1.00E−03 RS1526211 219 2 184836469 1.10E−03 RS9290552 311 NAALADL2 254827 3 176588518 1.10E−03 RS4611835 313 NAALADL2 254827 3 176610777 1.10E−03 RS1961547 368 4 83623512 1.10E−03 RS10512865 514 5 44859124 1.10E−03 RS2410410 797 LOC646444 646444 8 16370342 1.10E−03 RS10504694 842 8 80203155 1.10E−03 RS10491854 948 9 117454034 1.10E−03 RS1926256 22 1 69591095 1.20E−03 RS1358091 220 2 184853176 1.20E−03 RS10512629 299 KALRN 8997 3 125870100 1.20E−03 RS725882 409 4 122925927 1.20E−03 RS1351633 512 5 44579608 1.20E−03 RS725819 626 6 23849815 1.20E−03 RS534196 914 9 84907936 1.20E−03 RS1621212 1033 ADAM12 8038 10 127831272 1.20E−03 RS2193849 312 NAALADL2 254827 3 176601367 1.30E−03 RS997720 373 HNRPDL 9987 4 83702325 1.30E−03 RS250388 519 ARL15 54622 5 53621019 1.30E−03 RS997933 555 5 113212110 1.30E−03 RS1480147 793 8 16170358 1.30E−03 RS10510150 1031 ADAM12 8038 10 127778924 1.30E−03 RS293974 1062 TMEM16C 63982 11 26546702 1.30E−03 RS7945560 1065 TMEM16C 63982 11 26565073 1.30E−03 RS1526212 218 2 184836363 1.40E−03 RS3772812 302 ITGB5 3693 3 125966523 1.40E−03 RS2348205 401 4 111671174 1.40E−03 RS224939 537 5 81752858 1.40E−03 RS10519364 553 5 113207846 1.40E−03 RS1351608 554 5 113208536 1.40E−03 RS4712495 612 6 10379610 1.40E−03 RS1851006 1278 UNC13C 440279 15 52691684 1.40E−03 RS10493872 55 ABCD3 5825 1 94602439 1.50E−03 RS257342 597 5 170997873 1.50E−03 RS4510935 945 9 117364905 1.50E−03 RS577379 1174 SGCG 6445 13 22653788 1.50E−03 RS787534 11 1 67758546 1.60E−03 RS6748937 221 2 184855451 1.60E−03 RS243969 398 4 111646074 1.60E−03 RS9307353 402 4 111671460 1.60E−03 RS1027045 403 4 111677367 1.60E−03 RS2037724 798 LOC646444 646444 8 16370653 1.60E−03 RS10504825 857 CPNE3 8895 8 87636964 1.60E−03 RS10513297 940 ASTN2 23245 9 117130017 1.60E−03 RS1278305 1032 ADAM12 8038 10 127801415 1.60E−03 RS959988 1164 SLC15A4 121260 12 127817474 1.60E−03 RS9304979 1408 19 20949974 1.60E−03 RS10494858 101 LOC388730 388730 1 201784380 1.70E−03 RS3738154 102 RBBP5 5929 1 201795606 1.70E−03 RS726128 406 4 122870136 1.70E−03 RS224940 536 5 81752818 1.70E−03 RS7734201 552 5 113206989 1.70E−03 RS899557 595 5 170994216 1.70E−03 RS1324673 622 6 23820609 1.70E−03 RS370067 783 MSR1 4481 8 16088284 1.70E−03 RS2220486 1162 DKFZp761O2018 92293 12 127617021 1.70E−03 RS1591678 31 1 80888871 1.80E−03 RS10495528 132 2 6008445 1.80E−03 RS657715 298 KALRN 8997 3 125845712 1.80E−03 RS10520349 469 4 177765746 1.80E−03 RS1905155 556 5 113301097 1.80E−03 RS10488617 717 TXNDC3 51314 7 37710273 1.80E−03 RS2170116 791 8 16157007 1.80E−03 RS2369693 839 8 80179994 1.80E−03 RS10504693 840 8 80180116 1.80E−03 RS6478298 939 ASTN2 23245 9 117074245 1.80E−03 RS10512498 1346 17 58507111 1.80E−03 RS10493813 47 1 88583281 1.90E−03 RS1026947 328 4 27588429 1.90E−03 RS1462070 487 4 188639972 1.90E−03 RS243768 650 6 54445089 1.90E−03 RS10504710 847 8 80781801 1.90E−03 RS10494860 103 RIPK5 25778 1 201899456 2.00E−03 RS10512920 494 ADCY2 108 5 7455561 2.00E−03 RS9325782 790 8 16134844 2.00E−03 RS3909730 838 8 80175151 2.00E−03 RS2398417 1163 DKFZp761O2018 92293 12 127678424 2.00E−03 RS10491088 1330 GAS7 8522 17 9808904 2.00E−03 RS10495529 133 2 6032408 2.10E−03 RS10497645 222 2 184855798 2.10E−03 RS4673011 243 2 222728693 2.10E−03 RS1354083 297 KALRN 8997 3 125842553 2.10E−03 RS1035093 327 4 27588012 2.10E−03 RS10512855 511 5 44546969 2.10E−03 RS1445829 522 5 53663936 2.10E−03 RS1343496 665 6 78284325 2.10E−03 RS1545442 720 EPDR1 54749 7 37761531 2.10E−03 RS2163120 792 8 16165538 2.10E−03 RS7032150 928 SVEP1 79987 9 110320280 2.10E−03 RS10508903 983 MAPK8 5599 10 49311338 2.10E−03 RS1676741 1034 ADAM12 8038 10 127841520 2.10E−03 RS10500748 1046 11 11728555 2.10E−03 RS10502470 1378 KCTD1 284252 18 22452475 2.10E−03 RS960202 48 1 88605059 2.20E−03 RS10497651 217 2 184818615 2.20E−03 RS10512921 495 ADCY2 108 5 7455656 2.20E−03 RS10520900 506 5 25102703 2.20E−03 RS1317538 660 KCNQ5 56479 6 73706132 2.20E−03 RS420931 784 MSR1 4481 8 16088316 2.20E−03 RS1672168 875 8 108590185 2.20E−03 RS1929496 921 9 101346508 2.20E−03 RS33350 1307 16 50608803 2.20E−03 RS1942578 1402 18 73322001 2.20E−03 RS6692241 108 USH2A 7399 1 212598067 2.30E−03 RS243972 397 4 111644685 2.30E−03 RS631807 613 LOC442161 442161 6 10475686 2.30E−03 RS1586681 912 9 84876988 2.30E−03 RS1169429 913 9 84893406 2.30E−03 RS1013985 949 9 117454462 2.30E−03 RS7983559 1170 13 22616580 2.30E−03 RS1805082 1370 NPC1 4864 18 19374442 2.30E−03 RS632301 1380 18 22616756 2.30E−03 RS4131672 1403 18 73380972 2.30E−03 RS1926289 16 1 68177953 2.40E−03 RS10489000 326 4 27586912 2.40E−03 RS243976 396 4 111641384 2.40E−03 RS1485870 453 LOC442117 442117 4 173125585 2.40E−03 RS10519689 569 SRFBP1 153443 5 121347888 2.40E−03 RS4397191 661 KCNQ5 56479 6 73789192 2.40E−03 RS10503574 779 MSR1 4481 8 16028961 2.40E−03 RS1565741 804 8 16799856 2.40E−03 RS57740 1409 19 21223021 2.40E−03 RS4650488 38 1 80995749 2.50E−03 RS4704408 532 PDE8B 8622 5 76670405 2.50E−03 RS10498887 662 KCNQ5 56479 6 73797585 2.50E−03 RS10512405 927 SVEP1 79987 9 110316352 2.50E−03 RS871120 938 ASTN2 23245 9 117073775 2.50E−03 RS1837993 1300 15 96618609 2.50E−03 RS10491089 1331 GAS7 8522 17 9828100 2.50E−03 RS2077811 1379 18 22558197 2.50E−03 RS1607664 1410 ZNF429 353088 19 21497820 2.50E−03 RS10495015 110 USH2A 7399 1 212647859 2.60E−03 RS992454 244 2 222730366 2.60E−03 RS1484258 325 4 27585846 2.60E−03 RS4555709 347 SCFD2 152579 4 53867889 2.60E−03 RS171785 596 5 170994432 2.60E−03 RS1721062 805 8 16857802 2.60E−03 RS10489547 27 1 69681098 2.70E−03 RS6540927 107 USH2A 7399 1 212581393 2.70E−03 RS10512866 515 5 44859710 2.70E−03 RS250387 518 ARL15 54622 5 53620394 2.70E−03 RS9327238 570 SRFBP1 153443 5 121347997 2.70E−03 RS1213382 666 6 78284528 2.70E−03 RS1025926 829 TRPA1 8989 8 73115712 2.70E−03 RS4908087 71 1 100800615 2.80E−03 RS10490876 314 NAALADL2 254827 3 176634491 2.80E−03 RS10517214 343 4 48101753 2.80E−03 RS10512922 496 ADCY2 108 5 7457278 2.80E−03 RS631269 649 6 54417196 2.80E−03 RS10503575 778 MSR1 4481 8 16026250 2.80E−03 RS1379742 863 CNGB3 54714 8 87780661 2.80E−03 RS722833 1332 GAS7 8522 17 9876974 2.80E−03 RS540970 1377 KCTD1 284252 18 22430481 2.80E−03 RS4715005 641 6 47472916 2.90E−03 RS10504524 830 TRPA1 8989 8 73118445 2.90E−03 RS1025927 831 TRPA1 8989 8 73125689 2.90E−03 RS10491092 1333 GAS7 8522 17 9945918 2.90E−03 RS2822668 1433 21 14752268 2.90E−03 RS841337 59 1 94853548 3.00E−03 RS1033017 188 MALL 7851 2 110210596 3.00E−03 RS696236 279 PRICKLE2 166336 3 64184258 3.00E−03 RS10519692 571 5 121423648 3.00E−03 RS666336 802 8 16758689 3.00E−03 RS1025928 832 TRPA1 8989 8 73125812 3.00E−03 RS2297355 920 C9orf125 84302 9 101323312 3.00E−03 RS1931321 926 SVEP1 79987 9 110285257 3.00E−03 RS1556082 1215 GPC6 10082 13 93502465 3.00E−03 RS185266 1305 16 50595102 3.00E−03 RS2059232 1306 16 50596704 3.00E−03 RS2822665 1432 21 14744278 3.00E−03 RS10495014 109 USH2A 7399 1 212609915 3.10E−03 RS7564203 134 2 6032465 3.10E−03 RS553346 471 4 177769311 3.10E−03 RS715428 1365 KIAA1772 80000 18 17131449 3.10E−03 RS9284616 360 FRAS1 80144 4 79349710 3.20E−03 RS10520899 507 5 25103129 3.20E−03 RS251422 531 PDE8B 8622 5 76609190 3.20E−03 RS10514096 533 PDE8B 8622 5 76700940 3.20E−03 RS2150738 919 C9orf125 84302 9 101320263 3.20E−03 RS1033702 1255 KIAA1622 57718 14 93717052 3.20E−03 RS888405 278 PRICKLE2 166336 3 64176742 3.30E−03 RS495497 451 LOC442117 442117 4 173117269 3.30E−03 RS2956538 572 5 121427436 3.30E−03 RS942662 627 6 23850282 3.30E−03 RS9296538 637 6 47302408 3.30E−03 RS4706652 667 6 78303823 3.30E−03 RS2044271 828 TRPA1 8989 8 73114699 3.30E−03 RS4773773 1216 GPC6 10082 13 93509501 3.30E−03 RS1362400 1315 AYTL1 54947 16 54129326 3.30E−03 RS1981134 72 1 100823226 3.40E−03 RS3770857 167 CRIM1 51232 2 36608196 3.40E−03 RS10517279 345 SCFD2 152579 4 53831522 3.40E−03 RS9312637 346 SCFD2 152579 4 53867664 3.40E−03 RS1390165 450 4 173099567 3.40E−03 RS33375 598 5 170998718 3.40E−03 RS10503572 789 8 16131101 3.40E−03 RS2278667 852 8 80877490 3.40E−03 RS2986671 925 SVEP1 79987 9 110272210 3.40E−03 RS1797376 1133 LGR5 8549 12 70247964 3.40E−03 RS2854946 1259 SERPINA5 5104 14 94118132 3.40E−03 RS2681962 1276 UNC13C 440279 15 52685879 3.40E−03 RS10521320 1316 AYTL1 54947 16 54133662 3.40E−03 RS9284617 361 FRAS1 80144 4 79349747 3.50E−03 RS10520350 472 4 177769342 3.50E−03 RS10520903 502 5 24966468 3.50E−03 RS1283712 869 ANGPT1 284 8 108535430 3.50E−03 RS763889 1297 15 96543742 3.50E−03 RS10497642 216 2 184653938 3.60E−03 RS714206 535 5 81752090 3.60E−03 RS4512212 611 6 10379387 3.60E−03 RS1458402 669 6 78319510 3.60E−03 RS479600 918 9 101282358 3.60E−03 RS719223 1217 GPC6 10082 13 93532937 3.60E−03 RS8182127 1313 AYTL1 54947 16 54127098 3.60E−03 RS10518184 359 FRAS1 80144 4 79341261 3.70E−03 RS2348213 404 4 111679063 3.70E−03 RS432164 470 4 177766242 3.70E−03 RS10520352 473 4 177805099 3.70E−03 RS251421 530 PDE8B 8622 5 76608726 3.70E−03 RS1795462 1132 LGR5 8549 12 70247867 3.70E−03 RS10521321 1314 AYTL1 54947 16 54129064 3.70E−03 RS2411290 344 SCFD2 152579 4 53780438 3.80E−03 RS494770 452 LOC442117 442117 4 173117307 3.80E−03 RS990763 481 4 188204165 3.80E−03 RS1343493 668 6 78313564 3.80E−03 RS293975 1061 TMEM16C 63982 11 26546076 3.80E−03 RS959987 1165 SLC15A4 121260 12 127817680 3.80E−03 RS1442799 1298 15 96589992 3.80E−03 RS10502436 1366 KIAA1772 80000 18 17219520 3.80E−03 RS9288572 245 2 222787868 3.90E−03 RS1964670 362 FRAS1 80144 4 79351645 3.90E−03 RS10507325 1169 13 22615653 3.90E−03 RS920690 1299 15 96590158 3.90E−03 RS243840 1312 MMP2 4313 16 54085660 3.90E−03 RS1893290 1374 LAMA3 3909 18 19696619 3.90E−03 RS978313 17 1 68188495 4.00E−03 RS548825 21 1 69563639 4.00E−03 RS841338 60 1 94854749 4.00E−03 RS6662930 100 CNTN2 6900 1 201773122 4.00E−03 RS10496435 189 NPHP1 4867 2 110286548 4.00E−03 RS1502887 358 FRAS1 80144 4 79340562 4.00E−03 RS1797374 1131 LGR5 8549 12 70246800 4.00E−03 RS1983657 1258 SERPINA5 5104 14 94117046 4.00E−03 RS3755214 162 CRIM1 51232 2 36537729 4.10E−03 RS1882233 181 2 76710013 4.10E−03 RS2347597 584 G3BP 10146 5 151161511 4.10E−03 RS10505109 876 8 108635047 4.10E−03 RS1999598 929 SVEP1 79987 9 110322993 4.10E−03 RS1471013 1043 11 11697539 4.10E−03 RS2822669 1434 21 14752449 4.10E−03 RS766643 497 ADCY2 108 5 7499889 4.20E−03 RS1385290 777 8 15987084 4.20E−03 RS1383160 788 8 16131054 4.20E−03 RS10509210 1003 10 66125316 4.20E−03 RS1410747 1218 GPC6 10082 13 93533153 4.20E−03 RS9284299 1277 UNC13C 440279 15 52685923 4.20E−03 RS2010122 1296 15 96543545 4.20E−03 RS4800741 1367 KIAA1772 80000 18 17327951 4.20E−03 RS963552 180 2 76708216 4.30E−03 RS1675511 284 3 99775373 4.30E−03 RS2704404 342 4 48075472 4.30E−03 RS487474 646 6 54364173 4.30E−03 RS3913991 647 6 54402115 4.30E−03 RS243818 648 6 54404636 4.30E−03 RS724201 1130 LGR5 8549 12 70242280 4.30E−03 RS10493933 73 1 100823303 4.40E−03 RS10495526 130 2 5957046 4.40E−03 RS985343 182 2 76823437 4.40E−03 RS1549920 583 5 151121037 4.40E−03 RS1379782 1161 12 127583749 4.40E−03 RS8042622 1280 UNC13C 440279 15 52692250 4.40E−03 RS6114144 1426 20 23410022 4.40E−03 RS1854510 63 PAP2D 163404 1 99102265 4.50E−03 RS10517281 348 SCFD2 152579 4 53868523 4.50E−03 RS997721 374 HNRPDL 9987 4 83702471 4.50E−03 RS4695953 459 GLRA3 8001 4 176006441 4.50E−03 RS1366236 586 GLRA1 2741 5 151264796 4.50E−03 RS2614059 811 LOC389644 389644 8 28212815 4.50E−03 RS10508900 977 FRMPD2 143162 10 49126059 4.50E−03 RS876705 1000 10 66057533 4.50E−03 RS1389455 1066 TMEM16C 63982 11 26604761 4.50E−03 RS555210 1096 11 94735784 4.50E−03 RS10506057 1120 12 30159671 4.50E−03 RS1280823 1129 LGR5 8549 12 70210415 4.50E−03 RS9317535 1175 SGCG 6445 13 22653892 4.50E−03 RS1818711 1279 UNC13C 440279 15 52692074 4.50E−03 RS9324714 585 GLRA1 2741 5 151223956 4.60E−03 RS10498888 663 KCNQ5 56479 6 73800439 4.60E−03 RS4497357 1067 TMEM16C 63982 11 26619122 4.60E−03 RS10506055 1119 12 30097508 4.60E−03 RS948720 1401 18 73314377 4.60E−03 RS1571502 65 PAP2D 163404 1 99137091 4.70E−03 RS349018 246 2 222789893 4.70E−03 RS7696949 418 4 126771743 4.70E−03 RS7826088 785 8 16106013 4.70E−03 RS1480139 787 8 16129067 4.70E−03 RS10501826 1097 11 94739512 4.70E−03 RS1765618 54 1 94562596 4.80E−03 RS1506363 417 FAT4 79633 4 126759952 4.80E−03 RS1382901 594 5 170969444 4.80E−03 RS1915603 1004 10 66125650 4.80E−03 RS6493693 1275 UNC13C 440279 15 52679875 4.80E−03 RS2764536 28 1 69759261 4.90E−03 RS2141494 285 3 99779985 4.90E−03 RS999476 488 4 188660406 4.90E−03 RS6902538 610 6 10377786 4.90E−03 RS477516 800 8 16758362 4.90E−03 RS1832331 30 1 80873358 5.00E−03 RS4694890 341 TEC 7006 4 48067195 5.00E−03 RS10519693 573 5 121427572 5.00E−03 RS1459709 1035 ADAM12 8038 10 127862818 5.00E−03 RS3911569 1095 11 94735683 5.00E−03 RS4656049 49 1 88656915 5.10E−03 RS10510915 277 PRICKLE2 166336 3 64169587 5.10E−03 RS7117834 1047 11 11733493 5.10E−03 RS787533 10 1 67758330 5.20E−03 RS10489919 64 PAP2D 163404 1 99136909 5.20E−03 RS10510912 275 PRICKLE2 166336 3 64140589 5.20E−03 RS10513288 937 ASTN2 23245 9 117069393 5.20E−03 RS10509209 1001 10 66120490 5.20E−03 RS1915602 1002 10 66125009 5.20E−03 RS9326628 190 2 110324042 5.30E−03 RS2110509 329 4 27588882 5.30E−03 RS393279 474 4 177816548 5.30E−03 RS3816240 856 CPNE3 8895 8 87636421 5.30E−03 RS1062225 984 MAPK8 5599 10 49313232 5.30E−03 RS1072769 1117 12 30067073 5.30E−03 RS723856 1435 21 14771576 5.30E−03 RS1368080 146 KBTBD9 114818 2 23623079 5.40E−03 RS153717 276 PRICKLE2 166336 3 64147033 5.40E−03 RS1352058 458 GLRA3 8001 4 175981135 5.40E−03 RS10512876 516 5 45285361 5.40E−03 RS1956456 1254 KIAA1622 57718 14 93712715 5.40E−03 RS1544299 111 USH2A 7399 1 212652783 5.50E−03 RS10495524 126 2 5881900 5.50E−03 RS10506054 1118 12 30096174 5.50E−03 RS10518391 410 ANXA5 308 4 122965453 5.60E−03 RS4128165 457 GLRA3 8001 4 175948433 5.60E−03 RS10512919 493 ADCY2 108 5 7455004 5.60E−03 RS10512854 510 5 44546854 5.60E−03 RS10498889 664 KCNQ5 56479 6 73839097 5.60E−03 RS899683 786 8 16113895 5.60E−03 RS2136886 1411 19 21847999 5.60E−03 RS7606048 145 KBTBD9 114818 2 23545863 5.70E−03 RS4655769 18 1 68188999 5.80E−03 RS1430745 19 1 68258754 5.80E−03 RS10495525 129 2 5937776 5.80E−03 RS10490750 147 KBTBD9 114818 2 23623216 5.80E−03 RS1495291 449 4 173062483 5.80E−03 RS4690697 464 4 177690238 5.80E−03 RS411244 541 5 82242350 5.80E−03 RS725937 582 SPARC 6678 5 151036904 5.80E−03 RS4078145 1042 11 11620469 5.80E−03 RS533926 1094 11 94716912 5.80E−03 RS9322320 690 C6orf96 55005 6 151844022 5.90E−03 RS823603 806 8 16861200 5.90E−03 RS2614060 812 LOC389644 389644 8 28212897 5.90E−03 RS10506053 1116 12 30061626 5.90E−03 RS1992099 106 USH2A 7399 1 212556039 6.00E−03 RS1912163 340 TEC 7006 4 48051581 6.00E−03 RS3800273 691 C6orf96 55005 6 151851149 6.00E−03 RS2983301 1427 20 23434589 6.00E−03 RS1709329 148 KBTBD9 114818 2 23634850 6.10E−03 RS10488616 716 TXNDC3 51314 7 37706299 6.10E−03 RS4112759 944 9 117313823 6.10E−03 RS1877568 303 ITGB5 3693 3 125966877 6.20E−03 RS1818704 1274 UNC13C 440279 15 52679696 6.20E−03 RS10492899 1304 16 50583588 6.20E−03 RS930528 1351 TANC2 26115 17 58680003 6.20E−03 RS10495530 135 2 6034027 6.30E−03 RS10489920 66 PAP2D 163404 1 99146514 6.40E−03 RS1346612 128 2 5936521 6.40E−03 RS6867905 560 5 113473289 6.40E−03 RS2410373 776 8 15968877 6.40E−03 RS10502475 1376 KCTD1 284252 18 22427942 6.40E−03 RS10518467 416 FAT4 79633 4 126755739 6.50E−03 RS10514098 534 PDE8B 8622 5 76740837 6.50E−03 RS6940110 609 6 10377050 6.50E−03 RS716329 689 ZBTB2 57621 6 151791227 6.50E−03 RS723855 1436 21 14771745 6.50E−03 RS1841544 286 3 99839093 6.60E−03 RS2461063 846 8 80781668 6.60E−03 RS953211 414 FAT4 79633 4 126708654 6.70E−03 RS10503585 801 8 16758568 6.70E−03 RS2614074 813 8 28222739 6.70E−03 RS10502439 1369 NPC1 4864 18 19366772 6.70E−03 RS989901 922 9 101346820 6.80E−03 RS9284634 405 4 122864741 7.00E−03 RS433563 542 5 82242557 7.00E−03 RS2721304 559 5 113462331 7.00E−03 RS726217 1430 CST9 128822 20 23532116 7.00E−03 RS1485871 454 LOC442117 442117 4 173125753 7.10E−03 RS10513300 942 ASTN2 23245 9 117209760 7.20E−03 RS3844028 74 1 100823636 7.30E−03 RS1429235 127 2 5910112 7.30E−03 RS6436292 247 2 222798248 7.30E−03 RS115931 287 ST3GAL6 10402 3 99952479 7.30E−03 RS10518466 415 FAT4 79633 4 126737972 7.30E−03 RS1046852 20 C1orf139 79971 1 68303125 7.40E−03 RS3753855 99 CNTN2 6900 1 201772383 7.40E−03 RS1381115 810 8 28202690 7.40E−03 RS976891 324 4 27585616 7.50E−03 RS3800274 692 C6orf96 55005 6 151851306 7.50E−03 RS9322321 693 C6orf96 55005 6 151851744 7.50E−03 RS4570241 950 9 117476532 7.50E−03 RS1571500 61 PAP2D 163404 1 99098314 7.70E−03 RS4695357 339 TEC 7006 4 48040123 7.70E−03 RS10513301 943 ASTN2 23245 9 117241331 7.70E−03 RS3848309 1309 16 50690687 7.70E−03 RS3821359 288 ST3GAL6 10402 3 99973295 7.80E−03 RS27378 498 ADCY2 108 5 7521560 7.90E−03 RS2031393 621 6 23796368 7.90E−03 RS1942598 1400 18 73276885 7.90E−03 RS3734953 721 EPDR1 54749 7 37763462 8.00E−03 RS10484047 1260 SERPINA5 5104 14 94118981 8.00E−03 RS10519366 557 5 113326892 8.10E−03 RS9296547 642 6 47474339 8.10E−03 RS10491511 917 9 101259503 8.10E−03 RS9304978 1407 19 20949730 8.10E−03 RS10516086 599 5 171002992 8.20E−03 RS2378672 911 NTRK2 4915 9 84860588 8.20E−03 RS7921148 998 10 66047006 8.20E−03 RS2394081 999 10 66050572 8.20E−03 RS10519377 561 5 113535053 8.30E−03 RS1003203 1428 LOC128820 128820 20 23477910 8.30E−03 RS1700595 540 5 82242104 8.40E−03 RS10502435 1368 18 17361089 8.40E−03 RS1158167 1429 20 23526189 8.40E−03 RS10493679 39 1 81046048 8.50E−03 RS823600 807 8 16861804 8.50E−03 RS10504523 827 TRPA1 8989 8 73114044 8.50E−03 RS10484886 614 6 10477661 8.60E−03 RS2460605 1281 UNC13C 440279 15 52693011 8.60E−03 RS7580778 187 2 109757198 8.70E−03 RS2974490 558 5 113433775 8.70E−03 RS1801758 1329 GAS7 8522 17 9756951 8.70E−03 RS306322 50 1 88673430 8.80E−03 RS329204 916 9 85028966 8.80E−03 RS564038 1093 11 94715938 8.80E−03 RS10490874 310 NAALADL2 254827 3 176538732 8.90E−03 RS288989 1364 ROCK1 6093 18 16836580 8.90E−03 RS10495745 144 KBTBD9 114818 2 23543335 9.00E−03 RS2396817 636 6 47255521 9.10E−03 RS470732 1166 12 128008175 9.10E−03 RS9301934 1219 GPC6 10082 13 93537860 9.20E−03 RS10503827 814 8 28223645 9.30E−03 RS10501054 1060 TMEM16C 63982 11 26536121 9.40E−03 RS344924 15 1 67817474 9.80E−03 RS10520158 183 2 76851929 9.80E−03 RS293966 1059 TMEM16C 63982 11 26536069 9.80E−03 RS10489918 62 PAP2D 163404 1 99101483 1.00E−02 RS1956455 1253 KIAA1622 57718 14 93711620 1.00E−02 RS10506521 1352 TANC2 26115 17 58695046 1.00E−02 RS37551 543 5 82256024 1.02E−02 RS10493814 51 LOC401954 401954 1 88695848 1.06E−02 RS1426935 456 4 175905195 1.06E−02 RS10514245 544 5 82256614 1.06E−02 RS10513731 315 NAALADL2 254827 3 176661277 1.07E−02 RS7950644 1098 11 94739539 1.08E−02 RS10519378 563 5 113555966 1.11E−02 RS10500214 1406 ZNF85 7639 19 20914290 1.11E−02 RS10520290 460 GLRA3 8001 4 176006547 1.13E−02 RS526715 799 8 16754047 1.13E−02 RS293969 1056 TMEM16C 63982 11 26532067 1.13E−02 RS29620 593 5 170969416 1.16E−02 RS1519991 179 2 76698833 1.17E−02 RS9326911 562 5 113535625 1.18E−02 RS10501053 1058 TMEM16C 63982 11 26533301 1.20E−02 RS10493425 9 1 67722148 1.22E−02 RS871151 75 1 100835758 1.23E−02 RS1018912 1412 ZNF208 7757 19 21948425 1.24E−02 RS724202 1057 TMEM16C 63982 11 26532254 1.26E−02 RS8013924 1252 OTUB2 78990 14 93572196 1.26E−02 RS1382902 592 5 170969171 1.28E−02 RS10516085 591 5 170949443 1.29E−02 RS941490 1251 14 93508235 1.29E−02 RS6891243 492 5 7414980 1.30E−02 RS10502476 1381 18 22641232 1.31E−02 RS10512915 491 5 7380172 1.35E−02 RS1589273 184 2 76872376 1.38E−02 RS4128873 1041 GALNTL4 374378 11 11499597 1.38E−02 RS896322 104 TMCC2 9911 1 201941402 1.41E−02 RS10520348 463 4 177636887 1.42E−02 RS1552069 411 4 122983540 1.45E−02 RS7937815 1048 11 11738741 1.52E−02 RS10484046 1256 14 94077768 1.55E−02 RS997280 1261 LOC390503 390503 14 94171096 1.55E−02 RS1342337 659 KCNQ5 56479 6 73692956 1.57E−02 RS3770949 161 CRIM1 51232 2 36515414 1.58E−02 RS1429220 125 2 5881639 1.67E−02 RS2722897 815 PNOC 5368 8 28229116 1.68E−02 RS10520288 455 4 175884923 1.69E−02 RS1955649 1262 14 94196733 1.69E−02 RS2200455 1160 12 127317497 1.77E−02 RS1541679 523 5 53729676 1.79E−02 RS9292042 517 ARL15 54622 5 53572755 1.81E−02 RS241068 1345 17 58441292 1.82E−02 RS717806 160 2 36487186 1.94E−02 RS7156546 1257 14 94078129 1.96E−02 RS322401 480 4 188200452 1.99E−02 RS167721 479 4 188154690 2.11E−02

TABLE 5 SNP markers with P-value less than 0.005 for APOE1 from t-test assuming equal variaces between groups. Number of observations are marked by n1 and n2 and group avarages by avg1 and avg2. RS_id SEQ_ID_no Gene Gene_id Chr Position n1 avg1 n2 avg2 ttest df P-value RS6954679 728 7 63134099 437 1.32 41 1.51 4.79 476 2.23E−06 RS10502465 2490 18 20848719 446 1.32 30 1.53 4.74 474 2.83E−06 RS1016579 881 8 129269143 399 1.32 25 1.54 4.61 422 5.34E−06 RS1867584 985 10 49321355 190 1.4 244 1.29 4.52 432 8.00E−06 RS295577 524 NDUFA12L 91942 5 60457592 455 1.32 13 1.62 4.51 466 8.21E−06 RS10503626 808 PSD3 23362 8 18591364 459 1.32 21 1.56 4.45 478 1.07E−05 RS3912653 1091 FAT3 120114 11 92135172 197 1.27 279 1.38 4.45 474 1.70E−05 RS1792369 1090 FAT3 120114 11 92092081 196 1.28 276 1.38 4.34 470 1.75E−05 RS10498673 1912 BMP6 654 6 7770256 406 1.31 68 1.45 4.28 472 2.26E−05 RS2889611 2213 10 49321754 184 1.4 280 1.3 4.28 462 2.27E−05 RS10498293 2380 14 27284686 417 1.31 65 1.45 4.27 480 2.36E−05 RS2056247 1092 11 93315872 391 1.31 91 1.43 4.2 480 3.18E−05 RS10507768 2359 13 68865849 19 1.56 441 1.32 4.15 458 3.96E−05 RS295525 525 5 60508623 470 1.33 12 1.62 4.11 480 4.65E−05 RS572241 2264 FAT3 120114 11 91942082 269 1.29 199 1.38 4.04 466 6.25E−05 RS10517836 1747 4 63541480 405 1.32 45 1.47 4.04 448 6.29E−05 RS10508901 981 MAPK8 5599 10 49297404 185 1.39 287 1.29 4.03 470 6.50E−05 RS2503102 679 LOC442238 442238 6 100650488 272 1.37 142 1.27 4.01 412 7.21E−05 RS36617 2266 FAT3 120114 11 91943638 278 1.29 202 1.38 3.97 478 8.29E−05 RS2854946 1259 SERPINA5 5104 14 94118132 321 1.3 91 1.41 3.97 410 8.49E−05 RS4128928 1678 3 119083686 288 1.29 192 1.39 3.95 478 8.99E−05 RS10508896 2210 MARCH8 220972 10 45350649 451 1.34 29 1.16 3.95 478 8.99E−05 RS10491855 947 9 119335541 347 1.31 123 1.41 3.94 468 9.39E−05 RS352427 816 8 28571996 465 1.32 15 1.58 3.92 478 1.01E−04 RS10501797 2276 FAT3 120114 11 92167618 182 1.28 298 1.37 3.92 478 1.01E−04 RS901682 2208 MARCH8 220972 10 45285867 449 1.35 25 1.15 3.88 472 1.19E−04 RS1893120 1788 NDST4 64579 4 116230217 142 1.27 258 1.37 3.88 398 1.22E−04 RS2425570 2554 PTPRT 11122 20 41111765 347 1.31 51 1.45 3.86 396 1.32E−04 RS10509929 1021 10 112482278 55 1.45 405 1.32 3.83 458 1.46E−04 RS7412987 1532 LOC128153 128153 1 216013079 163 1.39 277 1.3 3.83 438 1.47E−04 RS878016 757 DLGAP2 9228 8 1585693 341 1.31 139 1.4 3.81 478 1.57E−04 RS2474263 678 LOC442238 442238 6 100641976 302 1.36 172 1.27 3.81 472 1.57E−04 RS2045765 1760 4 63775688 421 1.32 57 1.45 3.8 476 1.63E−04 RS2296697 40 LPHN2 23266 1 82209807 393 1.31 75 1.43 3.79 466 1.70E−04 RS10499436 2020 7 13649002 123 1.4 337 1.3 3.76 458 1.92E−04 RS9317744 1176 13 22963766 433 1.33 11 1.61 3.74 442 2.08E−04 RS7850478 946 9 119326659 356 1.31 126 1.4 3.73 480 2.14E−04 RS2292889 2250 DEPC-1 221120 11 43898353 94 1.25 378 1.35 3.73 470 2.15E−04 RS2353296 1733 4 47956320 423 1.32 31 1.5 3.71 452 2.33E−04 RS1961544 2559 21 19839174 402 1.32 24 1.52 3.71 424 2.35E−04 RS7841198 2096 PSD3 23362 8 18597648 447 1.32 31 1.49 3.7 476 2.41E−04 RS250387 518 ARL15 54622 5 53620394 399 1.31 77 1.43 3.69 474 2.50E−04 RS10499437 2021 7 13649243 130 1.4 342 1.3 3.69 470 2.51E−04 RS870241 1654 FAM19A4 151647 3 68908072 324 1.31 126 1.41 3.69 448 2.52E−04 RS10516125 1893 5 174413439 474 1.33 8 1.65 3.68 480 2.60E−04 RS10488888 395 4 111503157 472 1.33 8 1.65 3.68 478 2.60E−04 RS7792197 2055 7 87899449 446 1.32 32 1.49 3.68 476 2.60E−04 RS10509702 1009 10 97914086 466 1.33 12 1.59 3.68 476 2.60E−04 RS3760626 2533 CLPTM1 1209 19 50148945 262 1.29 216 1.38 3.68 476 2.60E−04 RS2072506 722 AMPH 273 7 38468920 442 1.32 30 1.5 3.68 470 2.60E−04 RS6830598 1775 NDST4 64579 4 116084463 161 1.39 259 1.3 3.68 418 2.64E−04 RS10495074 1530 LOC128153 128153 1 215998288 296 1.3 184 1.39 3.65 478 2.91E−04 RS967326 2094 PSD3 23362 8 18591541 448 1.32 32 1.49 3.65 478 2.91E−04 RS1112809 210 2 148197197 420 1.35 50 1.21 3.65 468 2.92E−04 RS10498292 1229 14 27284462 397 1.31 85 1.42 3.63 480 3.14E−04 RS3827702 1423 TASP1 55617 20 13446812 300 1.31 98 1.41 3.63 396 3.21E−04 RS1528842 209 2 148174046 426 1.35 56 1.22 3.62 480 3.26E−04 RS10512980 1823 5 51991165 319 1.36 151 1.27 3.62 468 3.27E−04 RS3104997 2143 8 96630910 341 1.35 123 1.26 3.62 462 3.27E−04 RS547008 2299 11 121523071 424 1.32 40 1.46 3.62 462 3.27E−04 RS10516142 601 FLT4 2324 5 180003769 474 1.33 8 1.64 3.61 480 3.38E−04 RS10503573 780 MSR1 4481 8 16047855 468 1.33 14 1.57 3.61 480 3.38E−04 RS2793207 1900 CDYL 9425 6 4901002 447 1.33 17 1.55 3.59 462 3.66E−04 RS1427421 1661 MITF 4286 3 69870404 410 1.32 44 1.46 3.59 452 3.67E−04 RS10489688 1523 1 197054569 315 1.31 163 1.39 3.58 476 3.79E−04 RS10518901 2441 C15orf41 84529 15 34807406 256 1.3 192 1.38 3.58 446 3.81E−04 RS4131462 1972 6 99364568 309 1.36 171 1.28 3.57 478 3.93E−04 RS1499976 1684 LOC389142 389142 3 119284020 369 1.3 101 1.4 3.57 468 3.94E−04 RS10509448 1005 NRG3 10718 10 83972610 432 1.32 20 1.52 3.57 450 3.95E−04 RS758780 2036 PTHB1 27241 7 33444985 302 1.3 180 1.39 3.56 480 4.08E−04 RS758779 2037 PTHB1 27241 7 33445083 302 1.3 180 1.39 3.56 480 4.08E−04 RS2671762 1633 3 5110111 431 1.32 49 1.45 3.55 478 4.23E−04 RS10514009 2530 18 67250588 449 1.32 31 1.49 3.55 478 4.23E−04 RS950085 1006 10 95592637 139 1.37 199 1.28 3.56 336 4.24E−04 RS1456196 293 3 119137243 358 1.31 84 1.41 3.55 440 4.27E−04 RS2825673 2561 21 19888587 415 1.32 55 1.45 3.54 468 4.40E−04 RS10492047 1158 LOC144678 144678 12 125501283 457 1.32 25 1.5 3.53 480 4.56E−04 RS4945630 1990 6 119472010 286 1.36 186 1.28 3.53 470 4.56E−04 RS10484973 1966 RIMS1 22999 6 72677020 366 1.32 98 1.42 3.52 462 4.74E−04 RS2217610 700 SDK1 221935 7 3697162 348 1.31 96 1.41 3.51 442 4.94E−04 RS7107851 2287 HEPHL1 341208 11 93396703 389 1.31 93 1.41 3.49 480 5.28E−04 RS492681 2472 18 9853662 383 1.32 89 1.42 3.49 470 5.29E−04 RS1945011 2298 GRIK4 2900 11 120126812 395 1.35 83 1.25 3.48 476 5.48E−04 RS2833581 2567 HUNK 30811 21 32254024 181 1.39 295 1.3 3.47 474 5.68E−04 RS4122274 1873 5 102998589 152 1.39 320 1.31 3.47 470 5.68E−04 RS10508895 2209 MARCH8 220972 10 45287774 414 1.35 24 1.17 3.47 436 5.72E−04 RS362865 2007 GRM1 2911 6 146704527 414 1.35 64 1.23 3.45 476 6.10E−04 RS4492337 2142 C8orf37 157657 8 96336117 313 1.31 143 1.4 3.45 454 6.13E−04 RS10487019 2056 7 87915131 449 1.32 31 1.48 3.44 478 6.33E−04 RS261861 1550 RGS7 6000 1 239162199 279 1.36 183 1.28 3.44 460 6.35E−04 RS283086 1986 SLC35F1 222553 6 118703634 187 1.3 207 1.38 3.44 392 6.44E−04 RS2195989 872 ANGPT1 284 8 108555088 69 1.43 393 1.32 3.43 460 6.58E−04 RS2357344 1242 SYNE2 23224 14 63578006 390 1.31 34 1.46 3.43 422 6.63E−04 RS2362932 120 SMYD3 64754 1 243980907 137 1.4 263 1.31 3.43 398 6.67E−04 RS10506681 2328 12 73653196 308 1.3 172 1.39 3.42 478 6.80E−04 RS1427422 1660 3 69866955 432 1.32 46 1.45 3.42 476 6.80E−04 RS10485116 1946 LOC653802 653802 6 42430492 467 1.33 9 1.61 3.41 474 7.05E−04 RS665889 915 9 86972031 268 1.3 204 1.38 3.4 470 7.31E−04 RS6109935 1424 TASP1 55617 20 13467837 120 1.4 316 1.31 3.4 434 7.36E−04 RS10521007 1822 ADAMTS12 81792 5 33794319 383 1.35 99 1.26 3.39 480 7.57E−04 RS7828096 2095 PSD3 23362 8 18597554 449 1.32 31 1.48 3.38 478 7.84E−04 RS1406444 1595 2 148189717 425 1.35 53 1.23 3.38 476 7.84E−04 RS9306468 2570 MTMR3 8897 22 28704281 373 1.35 103 1.26 3.38 474 7.85E−04 RS1501622 1705 FGF12 2257 3 193634069 187 1.28 285 1.36 3.38 470 7.85E−04 RS1369592 2435 15 34185952 209 1.29 231 1.37 3.38 438 7.90E−04 RS817504 1679 3 119161552 344 1.3 58 1.42 3.38 400 7.96E−04 RS10517211 1717 4 30253481 421 1.32 61 1.43 3.37 480 8.12E−04 RS950206 1791 4 116400004 179 1.28 297 1.36 3.37 474 8.13E−04 RS10494717 1519 1 193195136 410 1.35 46 1.22 3.37 454 8.16E−04 RS672489 1674 3 111133475 290 1.3 164 1.38 3.37 452 8.16E−04 RS10516971 1769 UNC5C 8633 4 96560069 364 1.35 112 1.26 3.36 474 8.42E−04 RS7874576 896 9 12600410 470 1.33 4 1.74 3.36 472 8.43E−04 RS6902590 2008 6 148672183 146 1.39 326 1.31 3.36 470 8.43E−04 RS2414689 1285 RORA 6095 15 59051547 75 1.4 189 1.29 3.37 262 8.65E−04 RS580758 390 4 105790400 433 1.32 47 1.45 3.35 478 8.72E−04 RS962592 476 4 181229107 474 1.33 6 1.67 3.35 478 8.72E−04 RS6990997 867 ZFPM2 23414 8 106881703 426 1.32 50 1.45 3.35 474 8.73E−04 RS198278 711 7 24214718 224 1.29 236 1.37 3.35 458 8.75E−04 RS4331176 2327 12 73652799 163 1.38 297 1.3 3.35 458 8.75E−04 RS283063 1987 SLC35F1 222553 6 118728007 444 1.32 36 1.47 3.34 478 9.03E−04 RS4418368 758 DLGAP2 9228 8 1585785 253 1.31 143 1.39 3.34 394 9.18E−04 RS166861 2352 13 55557523 426 1.32 54 1.44 3.33 478 9.36E−04 RS10510995 281 3 70525819 14 1.55 458 1.33 3.33 470 9.37E−04 RS737911 2571 MTMR3 8897 22 28729417 368 1.35 96 1.26 3.33 462 9.38E−04 RS1851006 1278 UNC13C 440279 15 52691684 153 1.27 203 1.36 3.33 354 9.60E−04 RS1467708 1526 1 203662300 289 1.33 39 1.47 3.33 326 9.68E−04 RS1903154 2101 8 21140781 449 1.34 29 1.19 3.32 476 9.69E−04 RS1828384 2335 12 114060113 248 1.3 230 1.37 3.32 476 9.69E−04 RS10501811 2282 11 93309061 390 1.31 78 1.41 3.32 466 9.71E−04 RS1871292 1646 3 35101859 279 1.34 39 1.21 3.33 316 9.71E−04 RS1410364 1915 6 9837105 93 1.42 349 1.32 3.32 440 9.75E−04 RS873651 2566 C21orf41 54073 21 29703719 263 1.37 155 1.28 3.32 416 9.80E−04 RS4564209 1531 LOC128153 128153 1 215999639 312 1.3 168 1.38 3.31 478 1.00E−03 RS2241577 1898 KIAA1191 57179 5 175707471 398 1.32 78 1.42 3.31 474 1.00E−03 RS717806 160 2 36429039 345 1.31 117 1.4 3.31 460 1.01E−03 RS10497650 223 2 184931280 451 1.32 5 1.69 3.31 454 1.01E−03 RS335251 2099 PSD3 23362 8 18691618 146 1.39 332 1.31 3.3 476 1.04E−03 RS10485494 2537 CGI-09 51605 20 5867378 461 1.32 15 1.53 3.3 474 1.04E−03 RS723043 157 LTBP1 4052 2 33395291 249 1.3 177 1.38 3.3 424 1.05E−03 RS6829390 338 TEC 7006 4 47893743 466 1.33 16 1.53 3.29 480 1.08E−03 RS1280310 1485 TCTEX1D1 200132 1 66989411 248 1.3 234 1.37 3.28 480 1.11E−03 RS6919514 688 UST 10090 6 149151922 439 1.32 41 1.45 3.28 478 1.11E−03 RS10484865 2011 6 153313545 452 1.34 22 1.16 3.28 472 1.11E−03 RS4131954 2324 12 73597675 167 1.38 303 1.3 3.28 468 1.12E−03 RS10521316 2461 16 53286727 243 1.3 223 1.38 3.28 464 1.12E−03 RS1298362 1136 12 74493708 216 1.29 242 1.36 3.28 456 1.12E−03 RS32218 1876 FBN2 2201 5 127719132 357 1.32 93 1.41 3.28 448 1.12E−03 RS10508158 2371 13 105045125 309 1.35 139 1.27 3.28 446 1.12E−03 RS2060180 2018 SDK1 221935 7 3696083 347 1.31 93 1.41 3.28 438 1.12E−03 RS10508903 983 MAPK8 5599 10 49311338 208 1.39 212 1.3 3.28 418 1.13E−03 RS1919447 1593 2 148179334 420 1.35 52 1.23 3.27 470 1.15E−03 RS2018842 1696 3 148362044 279 1.36 193 1.29 3.27 470 1.15E−03 RS1519684 1983 6 114571663 174 1.38 296 1.3 3.27 468 1.15E−03 RS1374028 1825 PDE4D 5144 5 58611588 398 1.34 34 1.19 3.27 430 1.16E−03 RS637225 1517 1 192302414 207 1.38 219 1.3 3.27 424 1.16E−03 RS763553 2112 8 31565038 232 1.3 116 1.39 3.27 346 1.18E−03 RS2291386 2013 SYTL3 94120 6 159104495 456 1.32 26 1.49 3.26 480 1.19E−03 RS4350286 2217 10 49997106 140 1.39 336 1.31 3.26 474 1.19E−03 RS1542731 1521 1 193349361 45 1.22 433 1.34 3.25 476 1.24E−03 RS4611835 313 NAALADL2 254827 3 176610769 444 1.33 22 1.5 3.25 464 1.24E−03 RS10497649 1611 2 184930781 475 1.33 7 1.63 3.24 480 1.28E−03 RS965158 868 8 107564094 471 1.33 11 1.57 3.24 480 1.28E−03 RS2916 1484 TCTEX1D1 200132 1 66989285 245 1.3 233 1.37 3.24 476 1.28E−03 RS10495390 116 RYR2 6262 1 235379636 432 1.32 44 1.45 3.24 474 1.28E−03 RS548987 629 SLC17A3 10786 6 25977350 442 1.32 34 1.46 3.24 474 1.28E−03 RS6966318 2060 IFRD1 3475 7 111880093 149 1.28 321 1.35 3.24 468 1.28E−03 RS4510935 945 9 119325172 408 1.32 72 1.42 3.23 478 1.32E−03 RS7838059 2083 MSRA 4482 8 10216220 387 1.32 53 1.44 3.23 438 1.33E−03 RS2060184 2017 SDK1 221935 7 3695551 374 1.31 108 1.4 3.22 480 1.37E−03 RS796707 1979 ATG5 9474 6 106800214 440 1.32 40 1.45 3.22 478 1.37E−03 RS1497724 1714 4 27838505 265 1.36 213 1.29 3.22 476 1.37E−03 RS7809161 2023 DGKB 1607 7 14739036 64 1.24 414 1.35 3.22 476 1.37E−03 RS1416824 1548 1 237505708 436 1.34 38 1.21 3.22 472 1.37E−03 RS10518900 2440 C15orf41 84529 15 34807277 271 1.3 203 1.38 3.22 472 1.37E−03 RS1905214 1902 6 6019201 187 1.29 285 1.36 3.22 470 1.37E−03 RS10510809 274 3 59414093 386 1.32 78 1.42 3.22 462 1.37E−03 RS661592 2040 C7orf25 79020 7 42919011 428 1.35 34 1.21 3.22 460 1.37E−03 RS1708370 1694 TMEM108 66000 3 134499004 376 1.32 56 1.44 3.22 430 1.38E−03 RS2198683 2513 18 56636476 196 1.29 262 1.37 3.21 456 1.42E−03 RS989177 748 7 124200122 66 1.42 350 1.32 3.21 414 1.43E−03 RS7664158 1792 4 117482746 406 1.32 74 1.42 3.2 478 1.47E−03 RS1211435 2460 16 53138814 326 1.31 148 1.39 3.2 472 1.47E−03 RS507575 1995 TPD52L1 7164 6 125559665 424 1.32 42 1.45 3.2 464 1.47E−03 RS7845961 2100 8 19783125 208 1.37 274 1.3 3.19 480 1.52E−03 RS4692297 1713 4 27837884 266 1.37 214 1.29 3.19 478 1.52E−03 RS3218493 2069 XRCC2 7516 7 151984596 470 1.33 10 1.58 3.19 478 1.52E−03 RS2294311 1457 HSPC117 51493 22 31123269 357 1.31 121 1.39 3.19 476 1.52E−03 RS6987277 766 8 8977241 436 1.32 38 1.46 3.19 472 1.52E−03 RS7775656 1913 TXNDC5 81567 6 7954759 388 1.35 76 1.25 3.19 462 1.52E−03 RS918092 2306 GRIN2B 2904 12 13632070 372 1.31 86 1.4 3.19 456 1.52E−03 RS1252225 854 LOC138046 138046 8 85677664 284 1.31 98 1.4 3.19 380 1.54E−03 RS10509173 2220 10 64281895 179 1.38 185 1.3 3.19 362 1.55E−03 RS10514280 1854 5 85744155 455 1.34 23 1.17 3.18 476 1.57E−03 RS1810113 2153 TM7SF4 81501 8 105433770 323 1.31 155 1.39 3.18 476 1.57E−03 RS1290030 2330 12 74498851 215 1.37 261 1.3 3.18 474 1.57E−03 RS1861373 1150 12 96296999 204 1.29 272 1.37 3.18 474 1.57E−03 RS9296009 1938 6 32222493 331 1.36 143 1.28 3.18 472 1.57E−03 RS773013 2188 9 76973237 459 1.33 9 1.59 3.18 466 1.57E−03 RS4703141 1855 5 97943067 289 1.3 141 1.38 3.18 428 1.58E−03 RS1121922 2093 PSD3 23362 8 18563312 432 1.32 50 1.44 3.17 480 1.62E−03 RS10509698 1008 C10orf130 387707 10 97782342 466 1.33 14 1.54 3.17 478 1.62E−03 RS178462 2421 14 79520688 48 1.44 430 1.32 3.17 476 1.62E−03 RS1046852 20 C1orf139 79971 1 68363692 287 1.3 185 1.38 3.17 470 1.62E−03 RS972432 2098 PSD3 23362 8 18599317 444 1.32 28 1.46 3.17 470 1.62E−03 RS2111368 2341 12 126098472 401 1.31 67 1.42 3.17 466 1.62E−03 RS10503998 2113 8 37046107 410 1.32 46 1.44 3.17 454 1.63E−03 RS1901439 204 2 134153941 425 1.32 55 1.43 3.16 478 1.68E−03 RS6699989 44 1 87844970 75 1.42 399 1.32 3.16 472 1.68E−03 RS10488861 1771 4 105845763 430 1.32 44 1.44 3.16 472 1.68E−03 RS10504143 2121 RB1CC1 9821 8 53714280 446 1.33 20 1.51 3.16 464 1.68E−03 RS3874273 2434 15 34183438 290 1.31 172 1.38 3.16 460 1.68E−03 RS10490347 1566 FLJ10379 55133 2 45548444 434 1.34 48 1.23 3.15 480 1.73E−03 RS10502475 1376 KCTD1 284252 18 22427942 174 1.38 308 1.31 3.15 480 1.73E−03 RS10517210 1716 4 30253178 423 1.32 57 1.43 3.15 478 1.74E−03 RS10498944 1968 6 85414678 438 1.32 42 1.45 3.15 478 1.74E−03 RS10483457 1232 GARNL1 253959 14 35211683 447 1.32 33 1.47 3.15 478 1.74E−03 RS10518178 1762 4 78638707 417 1.32 59 1.43 3.15 474 1.74E−03 RS543465 1980 ATG5 9474 6 106855297 438 1.33 38 1.46 3.15 474 1.74E−03 RS10517562 436 4 153255193 160 1.28 314 1.36 3.15 472 1.74E−03 RS8089476 1392 18 46107418 175 1.29 297 1.36 3.15 470 1.74E−03 RS1473869 1699 CCDC50 152137 3 192542016 446 1.34 24 1.18 3.15 468 1.74E−03 RS10494722 1520 1 193329773 37 1.21 429 1.34 3.15 464 1.74E−03 RS223128 1337 17 26933541 309 1.31 157 1.39 3.15 464 1.74E−03 RS10486853 2058 FLJ36166 349152 7 102642309 419 1.32 45 1.44 3.15 462 1.74E−03 RS2353193 1607 2 170142309 393 1.32 87 1.41 3.14 478 1.79E−03 RS6945746 2016 SDK1 221935 7 3548845 411 1.32 65 1.42 3.14 474 1.79E−03 RS10494716 1518 1 193182462 53 1.23 421 1.34 3.14 472 1.80E−03 RS1025302 1875 5 120843420 384 1.31 90 1.41 3.14 472 1.80E−03 RS2248815 1453 ITSN1 6453 21 34060196 377 1.35 55 1.24 3.14 430 1.81E−03 RS10493274 1481 1 60204577 414 1.32 16 1.52 3.14 428 1.81E−03 RS10504433 824 8 70021434 430 1.32 52 1.43 3.13 480 1.85E−03 RS7706518 576 5 127308921 432 1.32 48 1.44 3.13 478 1.86E−03 RS10510271 1629 3 3546367 326 1.31 152 1.38 3.13 476 1.86E−03 RS717357 1709 4 13994312 341 1.31 137 1.39 3.13 476 1.86E−03 RS4673999 1612 2 216058272 222 1.29 252 1.36 3.13 472 1.86E−03 RS1290939 2418 RAD51L1 5890 14 67759566 399 1.32 55 1.43 3.13 452 1.86E−03 RS2662258 1859 RGMB 285704 5 98153430 294 1.31 138 1.39 3.13 430 1.87E−03 RS723981 1967 SH3BGRL2 83699 6 80421994 420 1.32 6 1.65 3.13 424 1.87E−03 RS10503344 2075 8 5804694 341 1.33 49 1.45 3.13 388 1.88E−03 RS7701735 1853 5 85719306 457 1.34 25 1.18 3.12 480 1.92E−03 RS958425 2204 C10orf115 387642 10 23551932 418 1.32 62 1.43 3.12 478 1.92E−03 RS1578975 1805 4 170533173 444 1.34 32 1.2 3.12 474 1.92E−03 RS4631686 3 1 14450061 464 1.33 8 1.61 3.12 470 1.92E−03 RS7798413 2039 7 40879048 398 1.31 72 1.41 3.12 468 1.92E−03 RS10504166 2123 LOC392222 392222 8 55556364 399 1.32 65 1.42 3.12 462 1.92E−03 RS2409037 577 5 127314089 430 1.32 48 1.44 3.11 476 1.98E−03 RS785039 1574 2 115087031 435 1.32 41 1.45 3.11 474 1.98E−03 RS1314913 2419 RAD51L1 5890 14 67769347 415 1.32 57 1.43 3.11 470 1.98E−03 RS2769261 1504 1 113368430 340 1.32 80 1.42 3.11 418 2.00E−03 RS10518896 2439 C15orf41 84529 15 34731373 467 1.33 13 1.54 3.1 478 2.05E−03 RS10510986 1655 3 69746452 430 1.32 48 1.44 3.1 476 2.05E−03 RS7691071 1798 4 126835433 194 1.37 284 1.3 3.1 476 2.05E−03 RS889053 1888 5 159028256 377 1.35 99 1.26 3.1 474 2.05E−03 RS3218491 753 XRCC2 7516 7 151984681 466 1.33 6 1.64 3.1 470 2.05E−03 RS2034531 1799 4 137364060 23 1.49 447 1.33 3.1 468 2.05E−03 RS1154307 550 5 111049411 409 1.33 41 1.45 3.1 448 2.06E−03 RS10516627 1793 4 117487171 56 1.42 392 1.32 3.1 446 2.06E−03 RS10487544 2068 7 143266616 284 1.35 164 1.28 3.1 446 2.06E−03 RS1471531 2120 8 43226199 380 1.35 62 1.24 3.1 440 2.06E−03 RS10494231 1505 1 120125842 220 1.29 184 1.37 3.1 402 2.07E−03 RS1480145 796 8 16181494 470 1.33 12 1.55 3.09 480 2.12E−03 RS370480 2353 13 55575987 154 1.38 328 1.31 3.09 480 2.12E−03 RS10521210 1335 17 12966928 226 1.37 250 1.3 3.09 474 2.12E−03 RS757668 744 7 122368820 180 1.38 292 1.31 3.09 470 2.12E−03 RS2195875 2022 7 13707083 414 1.34 44 1.22 3.09 456 2.12E−03 RS10508705 2205 10 26117594 413 1.32 43 1.44 3.09 454 2.12E−03 RS10484171 2412 14 44213271 222 1.36 94 1.26 3.09 314 2.18E−03 RS7002137 769 8 10653610 413 1.32 69 1.42 3.08 480 2.19E−03 RS10491068 1011 BLNK 29760 10 97946892 467 1.33 15 1.53 3.08 480 2.19E−03 RS10514614 2464 16 84837699 442 1.32 36 1.46 3.08 476 2.19E−03 RS1110581 1568 2 66930615 401 1.32 75 1.41 3.08 474 2.19E−03 RS998359 1777 NDST4 64579 4 116090480 345 1.31 131 1.39 3.08 474 2.19E−03 RS1889465 1985 SLC35F1 222553 6 118649503 444 1.32 32 1.47 3.08 474 2.19E−03 RS2448361 2219 CDC2 983 10 62223133 402 1.32 72 1.42 3.08 472 2.19E−03 RS2123769 1557 LTBP1 4052 2 33378911 313 1.35 155 1.28 3.08 466 2.19E−03 RS183628 1856 5 98007391 325 1.31 143 1.39 3.08 466 2.19E−03 RS2485488 2345 13 37441039 101 1.26 365 1.35 3.08 464 2.19E−03 RS10486529 2034 PTHB1 27241 7 33363277 385 1.35 75 1.25 3.08 458 2.19E−03 RS6837953 437 4 154150413 415 1.32 35 1.45 3.08 448 2.20E−03 RS3749216 1650 FAM19A1 407738 3 68548925 478 1.33 4 1.71 3.07 480 2.26E−03 RS1883736 2248 ABTB2 25841 11 34330019 466 1.33 14 1.53 3.07 478 2.26E−03 RS2167871 2044 7 61715567 427 1.32 51 1.43 3.07 476 2.26E−03 RS10505768 1112 12 12790297 107 1.27 371 1.35 3.07 476 2.26E−03 RS1433450 1293 15 85342066 433 1.34 45 1.23 3.07 476 2.26E−03 RS1979980 1858 RGMB 285704 5 98134967 339 1.31 135 1.39 3.07 472 2.26E−03 RS6955211 2050 7 63509775 175 1.38 291 1.31 3.07 464 2.27E−03 RS7765062 2012 6 153316119 26 1.19 436 1.34 3.07 460 2.27E−03 RS10226709 708 DGKB 1607 7 14764159 364 1.35 68 1.25 3.07 430 2.28E−03 RS745708 976 FRMPD2 143162 10 49115681 351 1.31 75 1.41 3.07 424 2.28E−03 RS2138537 1701 3 193034173 221 1.37 261 1.3 3.06 480 2.34E−03 RS10500720 2237 SBF2 81846 11 10159532 467 1.34 15 1.14 3.06 480 2.34E−03 RS10500723 2238 SBF2 81846 11 10212811 467 1.34 15 1.14 3.06 480 2.34E−03 RS10497472 1609 2 177492847 450 1.33 30 1.47 3.06 478 2.34E−03 RS9325124 1887 5 148229011 296 1.31 184 1.38 3.06 478 2.34E−03 RS3823290 1982 FLJ10159 55084 6 108026930 438 1.32 42 1.45 3.06 478 2.34E−03 RS10509759 2226 CNNM2 54805 10 104679655 453 1.32 27 1.48 3.06 478 2.34E−03 RS10514844 1182 13 37808480 471 1.33 7 1.62 3.06 476 2.34E−03 RS346421 527 5 62565739 429 1.32 47 1.44 3.06 474 2.34E−03 RS7339969 1516 C1orf27 54953 1 184648393 156 1.39 318 1.31 3.06 472 2.34E−03 RS6427753 1524 1 197069037 322 1.31 152 1.38 3.06 472 2.34E−03 RS10510987 1656 3 69785447 430 1.32 42 1.44 3.06 470 2.34E−03 RS10518211 365 4 80156089 253 1.36 219 1.29 3.06 470 2.34E−03 RS2163721 2333 PPFIA2 8499 12 80343092 463 1.34 9 1.09 3.06 470 2.34E−03 RS10486530 2035 PTHB1 27241 7 33364558 385 1.35 77 1.25 3.06 460 2.34E−03 RS10501990 2290 11 101172368 290 1.31 140 1.39 3.06 428 2.35E−03 RS1465135 697 6 164115617 314 1.3 114 1.38 3.06 426 2.35E−03 RS1905015 1668 3 100210226 180 1.38 298 1.31 3.05 476 2.42E−03 RS947271 1507 REG4 83998 1 120138926 258 1.3 218 1.37 3.05 474 2.42E−03 RS10484926 2006 6 146336371 470 1.33 4 1.71 3.05 472 2.42E−03 RS1805781 1111 PHC1 1911 12 8957155 468 1.33 6 1.64 3.05 472 2.42E−03 RS7234279 2509 18 55200765 428 1.34 46 1.23 3.05 472 2.42E−03 RS6895637 1821 ADAMTS12 81792 5 33785569 319 1.35 141 1.28 3.05 458 2.42E−03 RS10499134 2000 6 126479722 426 1.34 30 1.2 3.05 454 2.42E−03 RS2785949 1195 13 53806676 316 1.31 138 1.39 3.05 452 2.42E−03 RS26207 1877 ADAMTS19 171019 5 129063995 260 1.36 138 1.28 3.05 396 2.44E−03 RS10510104 1030 ATE1 11101 10 123521812 394 1.32 88 1.41 3.04 480 2.50E−03 RS10500719 2236 SBF2 81846 11 10146418 465 1.34 15 1.14 3.04 478 2.50E−03 RS260933 1715 4 28982993 261 1.36 215 1.29 3.04 474 2.50E−03 RS7447076 1872 5 100585396 134 1.28 342 1.36 3.04 474 2.50E−03 RS6079097 2542 TASP1 55617 20 13474577 139 1.38 337 1.31 3.04 474 2.50E−03 RS6601146 1899 LOC646210 646210 5 180226111 127 1.28 345 1.35 3.04 470 2.50E−03 RS9307159 1770 UNC5C 8633 4 96560909 391 1.35 79 1.26 3.04 468 2.50E−03 RS2527729 2074 8 5376923 130 1.27 334 1.35 3.04 462 2.50E−03 RS1268444 1937 6 30519525 277 1.31 157 1.38 3.04 432 2.51E−03 RS7573989 1569 2 66974299 414 1.32 68 1.42 3.03 480 2.58E−03 RS10509705 1010 10 97914784 468 1.33 14 1.53 3.03 480 2.58E−03 RS1079634 2462 WWOX 51741 16 77468635 363 1.31 119 1.39 3.03 480 2.58E−03 RS10494583 1514 TPR 7175 1 184557118 385 1.32 95 1.4 3.03 478 2.58E−03 RS2291385 2014 SYTL3 94120 6 159104665 455 1.32 25 1.48 3.03 478 2.58E−03 RS2743562 1978 ATG5 9474 6 106799841 437 1.32 37 1.45 3.03 472 2.58E−03 RS2043835 1874 5 111010485 434 1.32 48 1.44 3.02 480 2.66E−03 RS4504494 2001 ARHGAP18 93663 6 129954780 469 1.33 13 1.54 3.02 480 2.66E−03 RS6949530 2062 7 122406461 411 1.32 71 1.42 3.02 480 2.66E−03 RS10512000 2186 9 73345993 37 1.22 445 1.34 3.02 480 2.66E−03 RS10492135 1114 GRIN2B 2904 12 13777535 105 1.4 375 1.31 3.02 478 2.66E−03 RS1443120 2296 11 109749438 441 1.32 37 1.45 3.02 476 2.66E−03 RS854404 2373 14 24273746 309 1.31 169 1.38 3.02 476 2.66E−03 RS2825681 2562 21 19910552 415 1.32 61 1.43 3.02 474 2.66E−03 RS10493409 1483 SGIP1 84251 1 66778534 408 1.32 64 1.42 3.02 470 2.67E−03 RS9306281 2573 LARGE 9215 22 32343807 127 1.39 343 1.31 3.02 468 2.67E−03 RS10484230 1236 14 43700947 365 1.31 101 1.4 3.02 464 2.67E−03 RS1993306 1555 LTBP1 4052 2 33299839 361 1.35 99 1.26 3.02 458 2.67E−03 RS7752672 1999 6 125629122 185 1.38 273 1.31 3.02 456 2.67E−03 RS547595 1503 SLC25A24 29957 1 108527709 173 1.29 277 1.36 3.02 448 2.67E−03 RS1526595 1648 CACNA2D3 55799 3 54903536 320 1.31 126 1.39 3.02 444 2.67E−03 RS2458349 1105 11 105805096 204 1.38 240 1.31 3.02 442 2.67E−03 RS2405708 428 4 137201172 161 1.38 223 1.3 3.02 382 2.70E−03 RS9285429 1988 6 118811259 307 1.36 175 1.29 3.01 480 2.75E−03 RS1324088 628 6 25949101 444 1.32 36 1.45 3.01 478 2.75E−03 RS1914542 2233 10 125651321 174 1.38 306 1.31 3.01 478 2.75E−03 RS1945627 2245 LOC387755 387755 11 15182763 453 1.32 27 1.47 3.01 478 2.75E−03 RS10503572 789 8 16131101 473 1.33 5 1.67 3.01 476 2.75E−03 RS539111 1961 BAI3 577 6 69638536 269 1.36 207 1.3 3.01 474 2.75E−03 RS717997 2334 12 82658105 292 1.31 178 1.38 3.01 468 2.75E−03 RS787433 1590 2 145580328 260 1.31 200 1.38 3.01 458 2.76E−03 RS2124726 1549 FMN2 56776 1 238431700 301 1.36 157 1.29 3.01 456 2.76E−03 RS10514136 1849 AP3B1 8546 5 77467642 376 1.34 48 1.23 3.01 422 2.77E−03 RS2470549 1635 ANKRD28 23243 3 15712702 206 1.34 134 1.27 3.01 338 2.81E−03 RS2591651 1826 PDE4D 5144 5 58615479 477 1.33 5 1.66 3 480 2.84E−03 RS10519569 2430 LOC653227 653227 15 24902890 412 1.32 70 1.42 3 480 2.84E−03 RS10519571 2429 LOC653227 653227 15 24899931 409 1.32 71 1.41 3 478 2.84E−03 RS10495466 118 FMN2 56776 1 238575190 458 1.33 20 1.5 3 476 2.84E−03 RS7688920 1800 4 146812432 447 1.34 31 1.2 3 476 2.84E−03 RS3924594 2329 CAPS2 84698 12 73969063 190 1.37 284 1.3 3 472 2.84E−03 RS2817738 1927 6 24899079 51 1.44 411 1.32 3 460 2.85E−03 RS726789 2532 EMR3 84658 19 14604003 292 1.36 170 1.28 3 460 2.85E−03 RS6601438 2084 MSRA 4482 8 10217077 385 1.32 73 1.41 3 456 2.85E−03 RS2301448 2574 22 44417456 144 1.39 274 1.31 3 416 2.86E−03 RS9323682 2422 14 79536316 436 1.32 40 1.45 2.99 474 2.93E−03 RS8099275 2511 18 56551281 214 1.3 262 1.36 2.99 474 2.93E−03 RS4695371 1736 4 48018575 408 1.31 62 1.41 2.99 468 2.94E−03 RS10515792 1889 5 159028460 369 1.35 101 1.27 2.99 468 2.94E−03 RS1604613 1197 13 69021604 210 1.37 246 1.3 2.99 454 2.94E−03 RS1579274 2119 8 41778080 349 1.31 129 1.39 2.98 476 3.03E−03 RS10506626 1128 TSPAN8 7103 12 69815758 328 1.31 148 1.39 2.98 474 3.03E−03 RS779320 1702 3 193065627 333 1.35 141 1.28 2.98 472 3.03E−03 RS1063964 2053 SRI 6717 7 87673405 307 1.36 167 1.29 2.98 472 3.03E−03 RS10516028 1892 5 165975170 58 1.24 414 1.35 2.98 470 3.03E−03 RS4146127 350 4 59114124 392 1.32 78 1.41 2.98 468 3.03E−03 RS7678343 1801 4 161555665 91 1.4 379 1.32 2.98 468 3.03E−03 RS32967 1852 5 80214012 118 1.27 352 1.35 2.98 468 3.03E−03 RS2292250 1634 SRGAP3 9901 3 9064178 445 1.33 19 1.5 2.98 462 3.03E−03 RS10495787 1561 LTBP1 4052 2 33453813 114 1.39 348 1.31 2.98 460 3.04E−03 RS1527420 196 2 119267761 395 1.32 53 1.43 2.98 446 3.04E−03 RS1372184 2227 10 109230619 365 1.32 79 1.41 2.98 442 3.04E−03 RS490680 1501 SLC25A24 29957 1 108526041 188 1.29 292 1.36 2.97 478 3.13E−03 RS2825652 1441 21 19865219 470 1.33 10 1.56 2.97 478 3.13E−03 RS579588 1963 BAI3 577 6 69639537 270 1.36 208 1.29 2.97 476 3.13E−03 RS10510175 1631 3 3747717 417 1.32 55 1.42 2.97 470 3.13E−03 RS566537 1962 BAI3 577 6 69639246 266 1.36 206 1.3 2.97 470 3.13E−03 RS2608030 2163 8 129234261 373 1.32 99 1.4 2.97 470 3.13E−03 RS9287674 1552 2 6411955 313 1.36 153 1.28 2.97 464 3.13E−03 RS491785 1502 SLC25A24 29957 1 108526216 180 1.29 284 1.36 2.97 462 3.13E−03 RS6077461 2539 20 8888587 192 1.38 250 1.31 2.97 440 3.14E−03 RS333856 1576 2 117692216 475 1.33 7 1.61 2.96 480 3.23E−03 RS279511 1781 NDST4 64579 4 116125572 343 1.31 139 1.39 2.96 480 3.23E−03 RS285406 855 8 87094129 460 1.33 22 1.49 2.96 480 3.23E−03 RS9314803 2187 9 75072811 455 1.32 27 1.47 2.96 480 3.23E−03 RS6544711 1565 DYNC2LI1 51626 2 43853999 335 1.36 145 1.28 2.96 478 3.23E−03 RS1480974 1719 4 34852928 146 1.28 334 1.36 2.96 478 3.23E−03 RS245340 1851 MSH3 4437 5 80197256 124 1.28 356 1.35 2.96 478 3.23E−03 RS4509682 2216 C10orf72 196740 10 49983627 136 1.39 342 1.31 2.96 476 3.23E−03 RS3951463 2305 12 5284520 118 1.39 360 1.31 2.96 476 3.23E−03 RS2133675 2321 12 33086481 435 1.34 41 1.22 2.96 474 3.23E−03 RS10483512 2402 14 39587177 264 1.31 208 1.38 2.96 470 3.23E−03 RS1506575 2366 13 70452523 392 1.32 76 1.41 2.96 466 3.23E−03 RS540970 1377 KCTD1 284252 18 22430481 161 1.37 303 1.3 2.96 462 3.23E−03 RS4723970 2038 C7orf10 79783 7 40542997 410 1.35 52 1.24 2.96 460 3.24E−03 RS935056 1506 1 120134921 250 1.3 210 1.37 2.96 458 3.24E−03 RS10517293 1737 4 54284572 426 1.32 30 1.46 2.96 454 3.24E−03 RS6937642 1989 6 118812481 162 1.29 292 1.36 2.96 452 3.24E−03 RS1404838 2063 7 122483459 167 1.38 287 1.31 2.96 452 3.24E−03 RS339906 2481 RAC1P1 387612 18 20521263 307 1.3 143 1.37 2.96 448 3.24E−03 RS243965 399 4 111509327 313 1.36 133 1.28 2.96 444 3.24E−03 RS2131774 1468 CSMD2 114784 1 33841310 69 1.26 303 1.36 2.96 370 3.27E−03 RS10493351 1482 1 63946731 472 1.33 10 1.56 2.95 480 3.33E−03 RS2971828 1567 2 66408091 386 1.32 94 1.4 2.95 478 3.33E−03 RS978876 2263 11 91525144 406 1.35 72 1.25 2.95 476 3.33E−03 RS9317885 2365 13 69628755 226 1.3 252 1.36 2.95 476 3.33E−03 RS8004187 2400 PAX9 5083 14 36210255 256 1.36 220 1.3 2.95 474 3.33E−03 RS4866602 1807 5 3742363 387 1.35 77 1.26 2.95 462 3.34E−03 RS1526813 2326 12 73643812 175 1.37 259 1.3 2.95 432 3.35E−03 RS2288338 369 HNRPD 3184 4 83493658 324 1.36 108 1.28 2.95 430 3.35E−03 RS2222654 430 4 137225511 190 1.38 236 1.31 2.95 424 3.35E−03 RS10510248 1625 CNTN4 152330 3 3023519 281 1.3 139 1.37 2.95 418 3.36E−03 RS7009724 2078 8 8976535 233 1.3 185 1.37 2.95 416 3.36E−03 RS10515526 1886 5 143157421 475 1.33 7 1.61 2.94 480 3.44E−03 RS6954168 755 LOC653748 653748 7 153727085 473 1.33 7 1.6 2.94 478 3.44E−03 RS10513319 952 9 119741270 464 1.33 16 1.51 2.94 478 3.44E−03 RS7148403 1234 14 38248309 426 1.32 52 1.43 2.94 476 3.44E−03 RS1948617 2516 18 56819944 199 1.29 277 1.36 2.94 474 3.44E−03 RS10485441 2557 BCAS1 8537 20 51997775 44 1.44 432 1.32 2.94 474 3.44E−03 RS10484317 604 FARS2 10667 6 5614669 452 1.32 22 1.48 2.94 472 3.44E−03 RS1219739 2232 CPXM2 119587 10 125515459 460 1.34 14 1.14 2.94 472 3.44E−03 RS168142 2482 18 20523065 321 1.3 153 1.38 2.94 472 3.44E−03 RS6798797 271 3 40741966 18 1.5 454 1.32 2.94 470 3.44E−03 RS868691 971 10 25945882 434 1.32 32 1.46 2.94 464 3.45E−03 RS10499231 2004 UTRN 7402 6 144903639 307 1.31 155 1.38 2.94 460 3.45E−03 RS10489168 1476 PRNPIP 79033 1 44500588 441 1.32 19 1.49 2.94 458 3.45E−03 RS2832298 2565 C21orf41 54073 21 29665734 283 1.36 173 1.29 2.94 454 3.45E−03 RS10521202 2470 KIAA0672 9912 17 12755289 234 1.3 198 1.37 2.94 430 3.46E−03 RS10508244 2200 PFKP 5214 10 3143203 454 1.32 28 1.47 2.93 480 3.55E−03 RS1441638 1778 NDST4 64579 4 116094415 363 1.31 117 1.39 2.93 478 3.55E−03 RS2529588 2061 IFRD1 3475 7 111890291 152 1.28 324 1.35 2.93 474 3.55E−03 RS763836 1553 ALK 238 2 29758808 100 1.4 372 1.31 2.93 470 3.55E−03 RS10499432 2019 7 13646983 228 1.3 244 1.36 2.93 470 3.55E−03 RS6807699 1689 LOC389142 389142 3 119736159 126 1.28 342 1.35 2.93 466 3.56E−03 RS285866 2154 8 106132633 301 1.36 133 1.28 2.93 432 3.57E−03 RS581277 2247 MPPED2 744 11 30436710 421 1.32 59 1.42 2.92 478 3.67E−03 RS10518660 1492 LPHN2 23266 1 82154655 449 1.32 29 1.46 2.92 476 3.67E−03 RS4970642 1498 1 82238319 426 1.32 52 1.43 2.92 476 3.67E−03 RS10495058 1529 GPATC2 55105 1 215697001 461 1.33 7 1.61 2.92 466 3.67E−03 RS9299445 993 LOC644954 644954 10 63244794 431 1.32 37 1.44 2.92 466 3.67E−03 RS3844148 1981 6 106923377 164 1.29 302 1.36 2.92 464 3.67E−03 RS4714203 1942 DNAH8 1769 6 39048774 401 1.33 53 1.43 2.92 452 3.68E−03 RS2200038 2447 15 37262421 207 1.37 247 1.3 2.92 452 3.68E−03 RS744319 2448 15 55668992 315 1.31 109 1.4 2.92 422 3.69E−03 RS722708 1363 SPIRE1 56907 18 12535581 175 1.37 203 1.29 2.92 376 3.71E−03 RS3904322 2343 LOC646184 646184 13 22266506 290 1.34 86 1.25 2.92 374 3.71E−03 RS514644 2246 MPPED2 744 11 30408757 423 1.32 59 1.42 2.91 480 3.78E−03 RS4901706 2414 C14orf101 54916 14 56184138 421 1.32 59 1.42 2.91 478 3.78E−03 RS10518442 1797 ANKRD50 57182 4 125813718 110 1.39 366 1.32 2.91 474 3.78E−03 RS2825672 2560 21 19887865 386 1.32 90 1.4 2.91 474 3.78E−03 RS7718000 551 5 112998258 469 1.33 5 1.65 2.91 472 3.79E−03 RS3924016 2002 6 139665701 328 1.31 146 1.38 2.91 472 3.79E−03 RS4131953 2325 12 73597990 291 1.31 181 1.38 2.91 470 3.79E−03 RS622345 1467 1 24513043 371 1.33 67 1.42 2.91 436 3.80E−03 RS10500985 1052 LUZP2 338645 11 24590527 83 1.4 353 1.31 2.91 434 3.80E−03 RS578499 1958 6 54509226 316 1.36 166 1.29 2.9 480 3.90E−03 RS173036 2449 15 58145519 472 1.33 10 1.56 2.9 480 3.90E−03 RS737769 2569 RUTBC2 129049 22 23605393 37 1.45 445 1.32 2.9 480 3.90E−03 RS953177 823 DNAJC5B 85479 8 67096174 452 1.33 26 1.47 2.9 476 3.90E−03 RS966430 1817 5 13736184 242 1.36 232 1.3 2.9 472 3.91E−03 RS6838661 1763 FRAS1 80144 4 79296422 112 1.27 360 1.35 2.9 470 3.91E−03 RS10487729 2030 LOC223075 223075 7 31538809 383 1.32 89 1.4 2.9 470 3.91E−03 RS250388 519 ARL15 54622 5 53621019 409 1.32 61 1.42 2.9 468 3.91E−03 RS10510444 1636 3 15985480 250 1.31 218 1.37 2.9 466 3.91E−03 RS10513765 316 PEX5L 51555 3 181027564 171 1.38 295 1.31 2.9 464 3.91E−03 RS10508204 2199 C10orf110 55853 10 1074360 228 1.3 238 1.37 2.9 464 3.91E−03 RS7556543 1512 PRG4 10216 1 184537042 81 1.41 375 1.32 2.9 454 3.91E−03 RS2304376 727 GBAS 2631 7 56016513 376 1.35 76 1.26 2.9 450 3.91E−03 RS2832296 2564 C21orf41 54073 21 59663325 280 1.36 170 1.29 2.9 448 3.92E−03 RS998291 1667 EPHA6 285220 3 98257090 386 1.33 56 1.43 2.9 440 3.92E−03 RS10510128 2231 10 125050938 374 1.31 56 1.42 2.9 428 3.92E−03 RS1169429 913 9 86853672 361 1.35 67 1.25 2.9 426 3.92E−03 RS2861754 1571 2 67931211 246 1.36 162 1.29 2.9 406 3.93E−03 RS10490838 263 3 24574382 467 1.33 15 1.51 2.89 480 4.03E−03 RS1938327 1551 1 240789859 462 1.33 18 1.5 2.89 478 4.03E−03 RS10484575 1977 ATG5 9474 6 106738553 441 1.32 39 1.44 2.89 478 4.03E−03 RS4131643 2234 10 125827901 225 1.37 251 1.3 2.89 474 4.03E−03 RS1564223 2512 18 56563874 254 1.36 222 1.3 2.89 474 4.03E−03 RS2672734 1806 EXOC3 11336 5 508696 229 1.3 245 1.36 2.89 472 4.03E−03 RS4785953 2452 ADCY9 115 16 4094852 415 1.32 59 1.42 2.89 472 4.03E−03 RS10483942 2423 14 79548170 431 1.32 39 1.44 2.89 468 4.03E−03 RS2001097 1939 6 32491836 389 1.32 69 1.42 2.89 456 4.04E−03 RS10497352 1608 2 170664017 91 1.41 361 1.32 2.89 450 4.04E−03 RS1680339 2483 18 20555981 152 1.38 268 1.31 2.89 418 4.05E−03 RS1480972 1718 4 34852796 103 1.28 297 1.37 2.89 398 4.06E−03

TABLE 6 SNP markers with P-value less than 0.005 for APOA1 from F-test (one-way ANOVA). Alleles are codes as 1 = A, 2 = C, 3 = G, and 4 = T. For each group number of observations ‘n’ and average value ‘avg’ are presented. RS_id SEQ_ID_no Gene Gene_id Chr Position g1 n1 RS6954679 728 7 63134099 1/1 201 RS2854946 1259 SERPINA5 5104 14 94118132 2/2 13 RS10504433 824 8 70021434 2/2 190 RS1399503 1159 12 127204934 3/3 197 RS10517155 330 4 28812651 2/2 1 RS10503626 808 PSD3 23362 8 18591364 1/1 2 RS1442799 1298 15 96589992 2/2 210 RS3886738 992 LOC644954 644954 10 63234254 1/1 1 RS10509160 995 LOC644954 644954 10 63245218 2/2 1 RS10509161 996 LOC644954 644954 10 63245347 1/1 1 RS10486467 712 7 26621039 1/1 1 RS2170398 773 8 13592708 2/2 1 RS10510995 281 3 70525819 1/1 1 RS718759 575 5 125467810 2/2 1 RS10498260 253 MGC42174 129563 2 232764865 1/1 1 RS744832 191 2 117565111 1/1 1 RS10498321 1231 NPAS3 64067 14 33263982 1/1 181 RS2120650 1292 15 84419700 1/1 216 RS4102401 866 RRM2B 50484 8 103288416 2/2 1 RS352766 775 8 15688930 2/2 1 RS641445 1398 18 72182254 3/3 1 RS10488888 395 4 111503157 2/2 1 RS1467596 605 FLJ33708 285780 6 6360933 1/1 1 RS2230133 580 TAF7 6879 5 140679241 2/2 197 RS10485909 738 MAGI2 9863 7 78077684 2/2 219 RS4960221 606 LY86 9450 6 6547432 2/2 179 RS10516418 384 4 97967932 1/1 206 RS10521381 2582 X 85978186 3/3 60 RS470559 1399 MBP 4155 18 72887390 2/2 3 RS10511194 1670 3 103457196 1/1 14 RS547008 2299 11 121523071 1/1 2 RS10507768 2359 13 68865849 1/3 19 RS10509929 1021 10 112482278 2/2 3 RS7413158 53 GBP2 2634 1 89353284 1/1 6 RS1016579 881 8 129269143 1/1 1 RS3912653 1091 FAT3 120114 11 92135172 1/1 42 RS2056247 1092 11 93315872 3/3 7 RS10514614 2464 16 84837699 1/1 205 RS10483457 1232 GARNL1 253959 14 35211683 1/1 209 RS387661 587 GABRG2 2566 5 161476289 2/2 2 RS5923642 2580 DACH2 117154 X 85930864 1/1 69 RS6811055 336 4 46586667 2/2 71 RS10513673 1698 MDS1 4197 3 170736860 1/1 2 RS10498673 1912 BMP6 654 6 7770256 2/2 174 RS1867584 985 10 49321355 2/2 72 RS10502465 2490 18 20848719 1/1 4 RS9299445 993 LOC644954 644954 10 63244794 2/2 199 RS1792369 1090 FAT3 120114 11 92092081 1/1 42 RS2889611 2213 10 49321754 1/1 83 RS2101435 254 MGC42174 129563 2 232823402 2/2 184 RS1112809 210 2 148197197 2/2 185 RS1528842 209 2 148174046 1/1 185 RS10493822 52 GBP1 2633 1 89302268 2/2 5 RS10508901 981 MAPK8 5599 10 49297404 3/3 83 RS10491954 2303 RAB6IP2 23085 12 1224606 1/1 17 RS9299446 994 LOC644954 644954 10 63244886 1/1 2 RS1073939 2302 RAB6IP2 23085 12 1156438 1/1 143 RS4352250 1600 2 167249624 2/2 165 RS1961544 2559 21 19839174 2/2 189 RS1810113 2153 TM7SF4 81501 8 105433770 2/2 118 RS548987 629 SLC17A3 10786 6 25977350 2/2 205 RS2072506 722 AMPH 273 7 38468920 1/1 206 RS2899901 2403 14 39602916 1/1 74 RS4341948 1601 2 167249871 2/2 5 RS9317744 1176 13 22963766 2/4 11 RS1410126 687 C6orf103 79747 6 147125370 1/1 5 RS10498293 2380 14 27284686 1/1 7 RS10485110 682 6 116309557 3/3 6 RS2235216 683 6 116310188 1/1 6 RS10485864 702 SDK1 221935 7 3890182 2/2 181 RS10509119 988 ANK3 288 10 61482646 1/1 194 RS4128928 1678 3 119083686 2/2 36 RS2383024 898 C9orf39 54875 9 17477945 1/1 101 RS10497298 1598 2 167245545 1/1 5 RS166861 2352 13 55557523 1/1 189 RS1324088 628 6 25949101 2/2 205 RS10516125 1893 5 174413439 2/4 8 RS10497295 1597 2 167235217 3/3 5 RS295577 524 mimitin 91942 5 60457592 2/2 2 RS10493425 9 1 67782715 1/1 207 RS10501797 2276 FAT3 120114 11 92167618 2/2 32 RS6702277 1528 ESRRG 2104 1 215023308 1/1 19 RS4368350 211 2 167249829 2/2 4 RS10514009 2530 18 67250588 2/4 31 RS1282646 2529 18 66590397 1/1 204 RS1902049 154 LTBP1 4052 2 33223086 3/3 129 RS1380835 1390 18 39747045 3/3 176 RS2255565 194 2 118114972 1/1 184 RS2793207 1900 CDYL 9425 6 4901002 1/1 215 RS10503573 780 MSR1 4481 8 16047855 1/1 227 RS10521382 2581 DACH2 117154 X 85931510 1/1 62 RS2113515 195 2 118115259 2/2 180 RS692419 1819 5 18024601 2/2 64 RS10484066 2428 14 98519148 1/1 133 RS1329120 1499 GBP2 2634 1 89357153 1/1 7 RS1406444 1595 2 148189717 1/1 186 RS10504166 2123 LOC392222 392222 8 55556364 1/1 4 RS572241 2264 FAT3 120114 11 91942082 2/2 78 RS1945011 2298 GRIK4 2900 11 120126812 1/1 4 RS536617 2266 FAT3 120114 11 91943638 2/2 80 RS8068574 1343 17 50327246 1/1 146 RS10487012 2054 7 87854386 2/2 154 RS866651 262 THRB 7068 3 24237159 2/2 161 RS3760626 2533 CLPTM1 1209 19 50148945 1/1 66 RS10491855 947 9 119335541 2/2 17 RS2099803 2228 10 109365959 1/1 48 RS1509649 1599 2 167247754 2/2 5 RS10489249 88 1 169981144 2/2 175 RS877345 958 TAF3 83860 10 8093782 1/1 180 RS3116231 252 MGC42174 129563 2 232600527 2/2 2 RS950206 1791 4 116400004 2/2 34 RS1828384 2335 12 114060113 2/2 51 RS10495074 1530 LOC128153 128153 1 215998288 2/2 87 RS10483507 2405 14 39614861 1/1 53 RS7792197 2055 7 87899449 1/1 4 RS7412987 1532 LOC128153 128153 1 216013079 2/2 31 RS6838 2230 ACADSB 36 10 124807738 1/1 36 RS950085 1006 10 95592637 1/1 24 RS1919447 1593 2 148179334 2/2 184 RS12026256 1511 1 175700199 1/1 154 RS283063 1987 SLC35F1 222553 6 118728007 3/4 36 RS1456196 293 3 119137243 1/1 4 RS4516081 2367 13 89219195 2/2 105 RS10498032 239 ABCA12 26154 2 215662730 1/1 29 RS8049647 1310 16 50695297 1/1 163 RS10485435 1964 BAI3 577 6 69672336 1/1 21 RS10503419 771 8 11164210 1/1 150 RS10484065 2427 14 98518521 1/1 134 RS10495783 155 LTBP1 4052 2 33255136 2/2 48 RS6919514 688 UST 10090 6 149151922 3/4 41 RS10489251 89 1 169984157 3/3 5 RS1372184 2227 10 109230619 3/3 147 RS10485116 1946 LOC653802 653802 6 42430492 2/4 9 RS250387 518 ARL15 54622 5 53620394 1/1 168 RS817504 1679 3 119161552 3/3 152 RS1407390 931 C9orf84 158401 9 113504308 2/2 165 RS9308931 156 LTBP1 4052 2 33275201 1/1 61 RS1884772 2404 14 39609074 2/2 54 RS227521 1510 ASTN 460 1 175355785 1/1 191 RS2353296 1733 4 47956320 1/1 1 RS10241173 2065 7 124240494 1/1 162 RS10508896 2210 MARCH8 220972 10 45350649 1/1 213 RS2292889 2250 DEPC-1 221120 11 43898353 2/2 8 RS10486853 2058 FLJ36166 349152 7 102642309 2/2 189 RS1559751 1525 1 198148785 1/1 105 RS10484317 604 FARS2 10667 6 5614669 2/2 217 RS896990 251 MGC42174 129563 2 232597100 1/1 2 RS965193 1577 2 118106053 3/3 161 RS7850478 946 9 119326659 1/1 17 RS6492611 2369 GPC5 2262 13 91940707 1/1 14 RS492681 2472 18 9853662 2/2 12 RS1029233 1452 21 32327571 1/1 23 RS487707 2297 FAM55D 54827 11 113955918 1/1 116 RS1427421 1661 MITF 4286 3 69870404 1/1 3 RS10520892 1820 5 23623415 2/2 197 RS10484921 2009 6 152083953 1/1 22 RS1880438 2256 LOC283247 283247 11 49327274 2/2 107 RS945849 933 C9orf84 158401 9 113545740 1/1 161 RS10518821 1289 15 67669717 1/1 154 RS352427 816 8 28571996 1/1 226 RS768747 2300 11 123133551 2/2 167 RS295525 525 5 60508623 2/2 2 RS10517836 1747 4 63541480 2/2 186 RS6477845 930 C9orf84 158401 9 113502143 1/1 3 RS7874576 896 9 12600410 1/3 4 RS823638 934 C9orf84 158401 9 113582582 1/1 3 RS1387551 2135 8 82842822 2/2 1 RS962592 476 4 181229107 2/2 234 RS10500985 1052 LUZP2 338645 11 24590527 1/1 6 RS7470491 932 C9orf84 158401 9 113530129 2/2 161 RS9294812 1965 BAI3 577 6 69674845 2/2 115 RS7719212 501 5 23658681 2/2 222 RS2291386 2013 SYTL3 94120 6 159104495 2/2 215 RS10498292 1229 14 27284462 1/1 165 RS10494066 81 NTNG1 22854 1 107591031 2/2 6 RS9303347 1342 17 49585177 1/1 1 RS10521202 2470 KIAA0672 9912 17 12755289 2/2 52 RS700049 2192 9 113622470 1/1 3 RS9304301 1391 18 40017390 2/2 217 RS718153 1554 2 30117122 1/1 26 RS1893120 1788 NDST4 64579 4 116230217 2/2 31 RS10500668 1039 11 6285001 2/2 1 RS10497650 223 2 184931280 2/4 5 RS878016 757 DLGAP2 9228 8 1585693 1/1 130 RS2474263 678 LOC442238 442238 6 100641976 3/3 33 RS10518533 420 4 129677708 1/1 4 RS1566728 1075 PTPRJ 5795 11 48121423 1/1 132 RS7841198 2096 PSD3 23362 8 18597648 2/2 1 RS3827702 1423 TASP1 55617 20 13446812 2/2 120 RS901682 2208 MARCH8 220972 10 45285867 1/1 2 RS10490353 172 UNQ6975 400952 2 45270098 2/2 196 RS246558 1848 5 71859074 1/1 173 RS10513993 2528 18 66588976 3/3 1 RS8027192 2450 15 69793594 2/2 6 RS9327673 1885 5 133230970 1/1 21 RS7107851 2287 HEPHL1 341208 11 93396703 2/2 154 RS6798797 271 3 40741966 1/1 220 RS2369669 2301 RAB6IP2 23085 12 1080279 1/1 113 RS967326 2094 PSD3 23362 8 18591541 2/2 209 RS10484518 698 6 164182068 3/3 23 RS10521979 1461 DMD 1756 X 31697540 3/3 41 RS965158 868 8 107564094 2/4 11 RS2294311 1457 HSPC117 51493 22 3112369 1/1 16 RS10497649 1611 2 184930781 1/3 7 RS1217654 761 CSMD1 64478 8 4294769 2/2 194 RS1773409 1535 1 234905895 1/1 6 RS9323682 2422 14 79536316 1/1 2 RS2503102 679 LOC442238 442238 6 100650488 1/1 99 RS3745718 1414 CARD8 22900 19 53406965 1/1 74 RS370480 2353 13 55575987 3/3 22 RS1217656 759 CSMD1 64478 8 4293171 1/1 1 RS10510715 269 3 40714716 2/2 2 RS4510935 945 9 119325172 2/2 6 RS2064572 1969 6 92111778 1/1 66 RS10486848 2052 SEMA3D 223117 7 84575619 2/2 165 RS10515869 1891 5 163444804 1/1 49 RS10499436 2020 7 13649002 1/1 19 RS10510714 270 3 40736947 1/1 224 RS724620 2579 DACH2 117154 X 85825740 2/2 72 RS6109935 1424 TASP1 55617 20 13467837 2/2 19 RS10521613 2576 MID1 4281 X 10555454 2/2 12 RS10505439 2162 C8ORFK36 340359 8 124731285 1/1 1 RS2045765 1760 4 63775688 2/2 189 RS10512041 2189 9 77255358 2/2 1 RS10504143 2121 RB1CC1 9821 8 53714280 2/4 20 RS6079097 2542 TASP1 55617 20 13474577 1/1 18 RS10494583 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3 67849940 3/3 195 RS10501811 2282 11 93309061 1/1 2 RS890783 1845 5 71031294 1/1 197 RS10497472 1609 2 177492847 2/4 30 RS709087 1700 3 192938993 2/2 123 RS3104997 2143 8 96630910 2/2 17 RS1235012 760 CSMD1 64478 8 4294524 2/2 201 RS1589629 2258 11 50431035 1/1 17 RS10483456 2396 GARNL1 253959 14 35105918 2/2 179 RS10521240 2459 16 49914823 1/1 6 RS4739647 2140 8 83563963 1/1 6 RS1121640 1099 11 96694636 2/2 210 RS10512000 2186 9 73345993 2/4 37 RS10486470 2028 7 26636375 1/1 11 RS1362406 2458 DNAJA2 10294 16 45554058 3/3 214 RS8054578 1323 16 77874316 1/1 3 RS1228685 2015 6 165388456 3/3 181 RS10508903 983 MAPK8 5599 10 49311338 1/1 45 RS6068024 2556 20 50001018 2/2 57 RS4945630 1990 6 119472010 1/1 86 RS2425570 2554 PTPRT 11122 20 41111765 2/2 158 RS758780 2036 PTHB1 27241 7 33444985 2/2 94 RS758779 2037 PTHB1 27241 7 33445083 1/1 94 RS798101 2431 LOC643811 643811 15 28890187 2/2 67 RS6895637 1821 ADAMTS12 81792 5 33785569 3/3 112 RS6777583 1671 3 107546384 2/2 75 RS10518896 2439 C15orf41 84529 15 34731373 2/4 13 RS10498944 1968 6 85414678 1/1 2 RS4631686 3 1 14450061 1/3 8 RS10503057 2520 PIGN 23556 18 57905398 1/1 152 RS246580 1846 5 71851370 2/2 173 RS719530 2059 7 109678201 2/2 54 RS10483942 2423 14 79548170 2/2 2 RS1499976 1684 LOC389142 389142 3 119284020 2/2 148 RS2769261 1504 1 113368430 1/1 10 RS752355 213 2 176428271 1/1 15 RS10485492 2536 20 5376989 2/2 1 RS2296697 40 LPHN2 23266 1 82209807 2/2 169 RS717806 160 2 36429039 1/1 11 RS1887545 1508 POGZ 23126 1 149651335 1/1 3 RS1506672 2128 XKR4 114786 8 56438061 2/2 42 RS10494584 1515 TPR 7175 1 184557144 2/2 153 RS1480145 796 8 16181494 2/2 229 RS3218491 753 XRCC2 7516 7 151984681 2/4 6 RS10510104 1030 ATE1 11101 10 123521812 2/2 5 RS1465135 697 6 164115617 1/1 120 RS1010504 2136 8 82922818 1/1 1 RS956408 2304 RAB6IP2 23085 12 1376941 2/2 112 RS10497568 1610 2 181147675 2/2 44 RS10510986 1655 3 69746452 1/1 194 RS929332 2043 7 45300667 2/2 129 RS6772743 1657 3 69804679 2/2 9 RS10521297 2471 17 14999716 1/1 191 RS7775656 1913 TXNDC5 81567 6 7954759 1/1 164 RS2291385 2014 SYTL3 94120 6 159104665 1/3 25 RS10490656 1562 KIAA1414 54497 2 37085212 1/1 140 RS3820182 1513 TPR 7175 1 184556956 1/1 7 RS6990997 867 ZFPM2 23414 8 106881703 2/2 6 RS1883736 2248 ABTB2 25841 11 34330019 1/3 14 RS228563 1491 1 79418807 1/1 45 RS2353193 1607 2 170142309 2/2 157 RS10483887 2420 ADCK1 57143 14 77355667 2/2 1 RS10492047 1158 LOC144678 144678 12 125501283 3/3 2 RS6955049 2051 CALN1 83698 7 71135644 1/1 1 RS7181421 1291 15 77626966 2/2 91 RS246575 1847 5 71855573 1/1 172 RS10510809 274 3 59414093 2/2 164 RS10517211 1717 4 30253481 2/2 184 RS10517954 1802 4 168847633 1/1 6 RS7529360 1489 C1orf139 79971 1 68382555 2/2 94 RS1046852 20 C1orf139 79971 1 68363692 1/1 37 RS10509702 1009 10 97914086 1/1 228 RS958425 2204 C10orf115 387642 10 23551932 1/1 180 RS4673999 1612 2 216058272 1/1 64 RS4888946 1324 16 77874931 1/1 171 RS2163721 2333 PPFIA2 8499 12 80343092 2/2 227 RS7782588 2027 7 26635712 1/1 157 RS10489688 1523 1 197054569 1/1 108 RS10514844 1182 13 37808480 2/3 7 RS779320 1702 3 193065627 2/2 120 RS3749216 1650 FAM19A1 407738 3 68548925 1/1 237 RS10496466 1573 2 115053720 2/2 127 RS650298 1466 FBXO42 54455 1 16538195 2/2 75 RS2671762 1633 3 5110111 2/2 194 RS10517293 1737 4 54284572 1/3 30 RS1851006 1278 UNC13C 440279 15 52691684 2/2 45 RS2761089 2005 6 145473596 2/2 80 RS10510987 1656 3 69785447 2/2 3 RS362865 2007 GRM1 2911 6 146704527 2/2 180 RS8089476 1392 18 46107418 2/2 33 RS1805781 1111 PHC1 1911 12 8957155 1/3 6 RS6837953 437 4 154150413 1/1 1 RS4504494 2001 ARHGAP18 93663 6 129954780 1/3 13 RS7556543 1512 PRG4 10216 1 184537042 1/1 7 RS2001097 1939 6 32491836 1/1 5 RS286300 1404 LOC401898 401898 19 11658308 2/2 213 RS10484926 2006 6 146336371 2/2 233 RS2290547 272 HYPB 29072 3 47036187 1/1 13 RS543465 1980 ATG5 9474 6 106855297 2/2 203 RS320694 2067 7 136695249 2/2 49 RS9329911 2141 8 86594772 1/1 121 RS10486471 2029 7 26636424 2/2 11 RS6938470 640 6 47446050 1/1 3 RS1501622 1705 FGF12 2257 3 193634069 2/2 45 RS4611835 313 NAALADL2 254827 3 176610769 1/1 2 RS10483426 2393 NPAS3 64067 14 32670589 2/2 63 RS2292250 1634 SRGAP3 9901 3 9064178 1/1 213 RS4952605 1563 SLC8A1 6546 2 40376993 1/1 21 RS1957425 2417 14 64428329 1/1 102 RS3773636 1640 TGFBR2 7048 3 30675445 1/1 13 RS4405428 1213 GPC5 2262 13 91916519 2/2 183 RS10498096 1613 2 221469394 2/2 1 RS2316853 2575 X 2575296 2/2 27 RS723043 157 LTBP1 4052 2 33395291 3/3 68 RS2217610 700 SDK1 221935 7 3697162 1/1 137 RS1878144 193 2 117895659 3/3 181 RS10496527 1575 2 117242961 2/2 42 RS2971828 1567 2 66408091 1/1 156 RS2669892 290 ZBTB20 26137 3 115817713 1/1 159 RS1915546 841 8 80202606 2/2 77 RS823692 1907 6 7435616 1/1 1 RS1334722 2201 ITIH5 80760 10 7715013 1/1 107 RS580758 390 4 105790400 1/1 4 RS285406 855 8 87094129 2/2 219 RS10500683 2235 11 7145579 2/2 93 RS1413191 2370 GPC5 2262 13 92011477 1/1 5 RS600524 1570 2 67527284 2/2 100 RS1506326 2525 KIAA1468 57614 18 58099371 3/3 11 RS10495774 150 2 30360180 2/2 10 RS10497783 230 HECW2 57520 2 196963769 1/1 2 RS1579274 2119 8 41778080 1/1 19 RS10503572 789 8 16131101 1/3 5 RS2195989 872 ANGPT1 284 8 108555088 2/2 9 RS2223753 2538 20 6615135 1/1 76 RS737769 2569 RUTBC2 129049 22 23605393 2/4 37 RS39626 1850 MSH3 4437 5 80154550 2/2 130 RS7828096 2095 PSD3 23362 8 18597554 1/1 1 RS10518660 1492 LPHN2 23266 1 82154655 1/1 210 RS958978 1614 SP110 3431 2 230758230 1/1 145 RS717897 2255 OR4C4P 79550 11 48332180 1/1 11 RS10517210 1716 4 30253178 2/2 1 RS720614 2064 7 124240026 2/2 9 RS6949530 2062 7 122406461 1/1 174 RS989177 748 7 124200122 2/2 13 RS2591651 1826 PDE4D 5144 5 58615479 1/3 5 RS962354 1738 4 56214479 1/1 172 RS590599 2010 6 153161845 2/2 7 RS198278 711 7 24214718 1/1 53 RS870241 1654 FAM19A4 151647 3 68908072 2/2 123 RS727505 2066 7 124249317 2/2 157 RS10503068 2526 KIAA1468 57614 18 58102113 2/2 10 RS1356216 192 2 117879031 3/3 187 RS10483988 1250 GALC 2581 14 87504310 2/2 173 RS2040868 2042 7 45293528 2/2 128 RS694795 1666 3 85016728 1/1 53 RS4073474 294 IQCB1 9657 3 122990105 1/1 100 RS10513166 1818 5 14046495 2/2 2 RS9306468 2570 MTMR3 8897 22 28704281 1/1 146 RS2825652 1441 21 19865219 2/2 230 RS9325559 2229 EIF3S10 8661 10 120811615 1/1 6 RS1519684 1983 6 114571663 2/2 28 RS4533975 1959 6 68537723 2/2 156 RS2973234 1725 4 37143568 2/2 115 RS10513319 952 9 119741270 1/1 224 RS847852 1940 ANKS1 23294 6 35012070 1/1 39 RS9319997 2522 PIGN 23556 18 57925017 2/2 151 RS953177 823 DNAJC5B 85479 8 67096174 2/2 213 RS10489474 1509 PAPPA2 60676 1 174809772 2/2 159 RS10490347 1566 FLJ10379 55133 2 45548444 2/2 1 RS947271 1507 REG4 83998 1 120138926 1/1 56 RS1608272 2259 11 50446832 1/1 129 RS9320780 1991 6 121303614 1/1 13 RS10516971 1769 UNC5C 8633 4 96560069 1/1 139 RS4597125 2331 12 74694839 1/1 6 RS10493351 1482 1 63946731 2/2 231 RS756458 2463 CDH13 1012 16 81846617 2/2 18 RS333856 1576 2 117692216 1/2 7 RS6844368 1764 FRAS1 80144 4 79658959 3/3 38 RS4146127 350 4 59114124 1/1 161 RS1254275 2415 14 59915736 3/3 6 RS2804861 2206 10 33815896 1/1 169 RS1268444 1937 6 30519525 2/2 87 RS176157 2568 CABIN1 23523 22 22833987 1/1 2 RS10506681 2328 12 73653196 2/2 99 RS1581412 1697 RSRC1 51319 3 159374881 2/2 32 RS2111826 309 CLDN11 5010 3 171623540 1/3 37 RS2018842 1696 3 148362044 1/1 80 RS1298362 1136 12 74493708 1/1 52 RS4492337 2142 C8orf37 157657 8 96336117 1/1 109 RS2246219 1672 GUCA1C 9626 3 110141846 1/1 17 RS9285977 1914 6 8517284 2/2 68 RS9322914 2392 NPAS3 64067 14 32571950 2/2 178 RS4721923 2024 LOC646385 646385 7 20604246 3/3 21 RS4140855 2155 8 117023770 1/1 8 RS10518014 1761 4 67282503 1/1 20 RS1979739 2433 RYR3 6263 15 31737586 1/1 34 RS10515526 1886 5 143157421 1/3 7 RS2887919 1647 3 39791844 1/1 21 RS6954168 755 LOC653748 653748 7 153727085 2/2 233 RS2825673 2561 21 19888587 2/2 6 RS4608876 1794 4 117668911 1/1 104 RS7241109 2473 C18orf1 753 18 13303114 1/1 112 RS2042651 1795 4 117669326 1/1 18 RS4661451 1465 1 14133149 1/1 53 RS6708913 1596 2 165583661 1/1 3 RS211587 1695 NMNAT3 349565 3 140763843 2/2 2 RS2409113 2076 LOC645960 645960 8 8849712 2/2 152 RS7926211 2257 TYRL 7300 11 49394908 1/1 20 RS11232919 1087 LOC646176 646176 11 81284714 2/2 2 RS720613 749 7 124239906 2/2 142 RS10498518 2416 14 64427295 1/1 30 RS2670607 201 2 124114105 1/1 3 RS10506700 2323 12 73340061 2/2 150 RS10496626 1578 CNTNAP5 129648 2 124593042 2/4 19 RS10514450 1322 16 77874213 2/2 3 RS2288272 1669 ZBTB11 27107 3 102861166 2/2 113 RS1938327 1551 1 240789859 1/1 222 RS1296210 1522 1 197008567 2/2 57 RS10495058 1529 GPATC2 55105 1 215697001 1/3 7 RS10507605 2350 13 55506479 1/1 211 RS1944989 2510 CCBE1 147372 18 55353222 1/1 14 RS10490838 263 3 24574382 1/1 226 RS2257086 1984 6 116925713 2/2 134 RS6601146 1899 LOC646210 646210 5 180226111 3/3 23 RS25931 1816 CTNND2 1501 5 11560083 2/3 38 RS10516613 1796 4 123193063 2/2 61 RS1931991 2003 6 142639061 3/3 7 RS261861 1550 RGS7 6000 1 239162199 1/1 38 RS1460176 2134 8 80409177 1/1 105 RS10504744 2138 8 82952758 2/2 99 RS10484407 1957 6 53086362 1/1 2 RS4722207 2025 DRCTNNB1A 84668 7 22959312 1/1 27 RS2009373 1415 CARD8 22900 19 53411226 2/2 41 RS10518901 2441 C15orf41 84529 15 34807406 1/1 80 RS173036 2449 15 58145519 2/2 231 RS7718000 551 5 112998258 1/3 5 RS10496647 202 2 126205406 1/1 1 RS2374031 2368 GPC5 2262 13 91939563 1/1 143 RS10503066 2523 PIGN 23556 18 57976538 1/1 153 RS4764277 2314 12 16577657 1/1 73 RS6977649 2057 7 88161552 2/2 2 RS1119006 2354 13 68718453 3/3 216 RS2827082 1444 21 22119060 2/2 5 RS185926 2531 LOC401898 401898 19 11658252 1/1 1 RS1434817 1732 4 43312247 1/1 1 RS9313999 1890 5 163444569 2/2 63 RS1011439 1339 17 49582464 1/1 1 RS7706518 576 5 127308921 1/1 195 RS2157768 1340 17 49582892 1/1 226 RS718883 1490 SLC44A5 204962 1 75837778 1/1 140 RS6673693 1527 1 207790043 1/1 7 RS889053 1888 5 159028256 1/1 11 RS10498602 2424 14 85663057 2/4 16 RS10483512 2402 14 39587177 2/2 80 RS2362932 120 SMYD3 64754 1 243980907 1/1 34 RS1497504 1637 3 21018495 1/1 7 RS10521241 1303 16 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RS32218 1876 FBN2 2201 5 127719132 2/2 13 RS10485828 2558 TUBB1 81027 20 57034050 2/2 7 RS10495390 116 RYR2 6262 1 235379636 2/2 197 RS7161975 2432 SGNE1 6447 15 30755131 2/2 190 RS10510156 1036 10 128294406 1/1 5 RS615696 2508 MBD2 8932 18 49946910 2/2 6 RS10492136 2313 GRIN2B 2904 12 13803044 2/2 2 RS1318822 1804 PALLD 23022 4 170001064 1/1 87 RS823986 579 FSTL4 23105 5 132894139 1/1 21 RS924159 2583 X 122041921 2/2 164 RS10508876 2207 10 43774192 2/2 205 RS4935712 2218 LOC653480 653480 10 51929419 2/2 65 RS10497723 227 TMEFF2 23671 2 192700568 1/1 207 RS1063964 2053 SRI 6717 7 87673405 2/2 103 RS2169141 2563 NCAM2 4685 21 21756991 1/1 64 RS10484846 1901 6 5048614 2/2 5 RS10483541 2401 TRAPPC6B 122553 14 38708680 2/4 10 RS9304675 2534 CARD8 22900 19 53429261 2/2 96 RS10508895 2209 MARCH8 220972 10 45287774 1/1 2 RS10494231 1505 1 120125842 2/2 54 RS1944487 2261 11 79493829 1/1 63 RS10503056 2521 PIGN 23556 18 57916617 2/2 151 RS4578215 1475 HIVEP3 59269 1 41836179 2/4 7 RS1429130 432 4 148443213 1/1 202 RS1915552 844 8 80237554 1/1 33 RS724023 2372 14 24201300 1/1 208 RS1993306 1555 LTBP1 4052 2 33299839 1/1 11 RS2593963 1673 MORC1 27136 3 110188056 2/2 28 RS10516142 601 FLT4 2324 5 180003769 2/2 234 RS8076457 1328 NTN1 9423 17 8884654 2/2 163 RS522085 1803 4 169481301 1/1 150 RS7794555 754 LOC653748 653748 7 153675164 2/2 207 RS2014617 2102 8 27633311 2/2 137 RS10495099 1533 1 216829548 2/2 3 RS10516865 379 4 91324324 3/3 236 RS935056 1506 1 120134921 2/2 54 RS1376917 1649 CADPS 8618 3 62473418 2/4 18 RS10498603 2425 14 85680709 2/3 17 RS10511729 901 9 23547227 1/1 86 RS9323026 2406 14 40050143 1/1 41 RS2346593 1756 4 63606400 1/1 2 RS10515985 2524 KIAA1468 57614 18 58097923 2/2 143 RS6966318 2060 IFRD1 3475 7 111880093 2/2 110 RS987479 714 7 34922949 1/1 147 RS10506835 2332 12 79667966 2/2 22 RS10504742 2137 8 82950922 1/1 99 RS6134885 2540 TASP1 55617 20 13421323 3/3 140 RS4131870 1960 6 68549169 2/2 16 RS4785953 2452 ADCY9 115 16 4094852 1/1 184 RS3847222 2184 9 1779931 1/1 128 RS3874273 2434 15 34183438 1/1 96 RS570008 2260 11 79479756 3/3 63 RS745708 976 FRMPD2 143162 10 49115681 1/1 146 RS4984442 2451 15 93183231 1/1 127 RS2973237 334 4 37148085 2/2 26 RS10521007 1822 ADAMTS12 81792 5 33794319 2/2 156 RS10489117 1712 4 16754666 1/1 4 RS581277 2247 MPPED2 744 11 30436710 2/2 3 RS10489115 1710 4 16736425 2/2 4 RS162676 1857 5 98019403 2/2 17 RS3789343 2541 TASP1 55617 20 13446547 1/1 141 RS918092 2306 GRIN2B 2904 12 13632070 3/3 152 RS9303878 1360 18 1564764 1/1 193 RS2078536 2026 DRCTNNB1A 84668 7 22983172 2/2 23 RS2347061 1731 4 43232434 1/1 235 RS9325124 1887 5 148229011 1/1 33 RS972432 2098 PSD3 23362 8 18599317 2/2 1 RS2209426 2185 SH3GL2 6456 9 17756315 1/1 145 RS1526723 1665 3 74113598 2/2 31 RS2041442 1711 4 16746993 2/2 183 RS2357344 1242 SYNE2 23224 14 63578006 2/2 5 RS10514136 1849 AP3B1 8546 5 77467642 1/1 170 RS637225 1517 1 192302414 2/2 55 RS3859990 2584 FLJ30058 158763 X 130050135 1/1 209 RS_id avg1 g2 n2 avg2 g3 n3 avg3 F dft dfe P-value RS6954679 1.31 1/3 35 1.42 3/3 3 2.03 16.76 2 236 1.56E−07 RS2854946 1.67 2/3 64 1.31 3/3 128 1.3 15.76 2 202 4.36E−07 RS10504433 1.31 2/4 50 1.39 4/4 1 2.5 14.53 2 238 1.11E−06 RS1399503 1.32 3/4 39 1.32 4/4 2 2.21 14.04 2 235 1.74E−06 RS10517155 2.5 2/4 49 1.28 4/4 191 1.34 13.57 2 238 2.62E−06 RS10503626 2.15 1/3 17 1.43 3/3 221 1.32 13.54 2 237 2.70E−06 RS1442799 1.32 2/4 30 1.38 4/4 1 2.5 12.89 2 238 4.84E−06 RS3886738 2.5 1/3 34 1.37 3/3 201 1.32 12.85 2 233 5.08E−06 RS10509160 2.5 2/3 38 1.37 3/3 202 1.32 12.79 2 238 5.30E−06 RS10509161 2.5 1/3 33 1.38 3/3 203 1.32 12.67 2 234 5.96E−06 RS10486467 2.5 1/3 9 1.25 3/3 228 1.33 12.6 2 235 6.34E−06 RS2170398 2.5 2/4 40 1.36 4/4 199 1.32 12.53 2 237 6.72E−06 RS10510995 2.5 1/3 12 1.4 3/3 223 1.33 12.37 2 233 7.84E−06 RS718759 2.5 2/3 25 1.31 3/3 199 1.33 12.27 2 222 8.82E−06 RS10498260 2.5 1/3 37 1.35 3/3 187 1.32 12.25 2 222 8.98E−06 RS744832 2.5 1/3 51 1.33 3/3 186 1.32 12.16 2 235 9.44E−06 RS10498321 1.33 1/2 56 1.34 2/2 1 2.5 12.16 2 235 9.44E−06 RS2120650 1.33 1/3 24 1.35 3/3 1 2.5 12.15 2 238 9.45E−06 RS4102401 2.5 2/4 18 1.36 4/4 221 1.33 12.13 2 237 9.65E−06 RS352766 2.5 2/4 28 1.31 4/4 211 1.33 12.1 2 237 9.92E−06 RS641445 2.5 3/4 21 1.31 4/4 191 1.33 12.16 2 210 1.01E−05 RS10488888 2.5 2/4 6 1.37 4/4 233 1.33 12.08 2 237 1.01E−05 RS1467596 2.5 1/3 12 1.35 3/3 226 1.33 12.07 2 236 1.02E−05 RS2230133 1.33 2/3 42 1.32 3/3 1 2.5 12.06 2 237 1.03E−05 RS10485909 1.33 2/4 19 1.32 4/4 1 2.5 11.99 2 236 1.10E−05 RS4960221 1.33 2/4 59 1.33 4/4 1 2.5 11.98 2 236 1.11E−05 RS10516418 1.33 1/3 26 1.33 3/3 1 2.5 11.91 2 230 1.20E−05 RS10521381 1.44 4/4 142 1.27 0/0 0 0 19.94 1 200 1.33E−05 RS470559 1.91 2/3 51 1.26 3/3 187 1.34 11.25 2 238 2.15E−05 RS10511194 1.45 1/3 78 1.23 3/3 132 1.38 11.28 2 221 2.16E−05 RS547008 2.04 1/3 36 1.4 3/3 194 1.31 11.26 2 229 2.17E−05 RS10507768 1.56 3/3 211 1.31 0/0 0 0 18.68 1 228 2.31E−05 RS10509929 1.9 2/3 49 1.4 3/3 178 1.31 11.18 2 227 2.34E−05 RS7413158 1.78 1/2 61 1.3 2/2 174 1.33 10.97 2 238 2.77E−05 RS1016579 1.79 1/3 23 1.52 3/3 188 1.31 10.85 2 209 3.29E−05 RS3912653 1.24 1/3 113 1.3 3/3 83 1.43 10.59 2 235 3.95E−05 RS2056247 1.64 3/4 77 1.39 4/4 157 1.29 10.47 2 238 4.38E−05 RS10514614 1.31 1/3 32 1.5 3/3 2 1.06 10.46 2 236 4.44E−05 RS10483457 1.32 1/3 29 1.38 3/3 2 2.07 10.32 2 237 5.04E−05 RS387661 2.08 2/4 36 1.29 4/4 202 1.33 10.16 2 237 5.84E−05 RS5923642 1.43 3/3 167 1.29 0/0 0 0 16.7 1 234 6.02E−05 RS6811055 1.3 2/4 100 1.42 4/4 52 1.25 10.04 2 220 6.72E−05 RS10513673 2.05 1/4 16 1.24 4/4 221 1.33 9.96 2 236 7.04E−05 RS10498673 1.29 2/4 58 1.44 4/4 5 1.47 9.93 2 234 7.26E−05 RS1867584 1.25 2/4 100 1.35 4/4 45 1.46 9.96 2 214 7.31E−05 RS10502465 1.75 1/3 22 1.46 3/3 212 1.31 9.89 2 235 7.52E−05 RS9299445 1.31 2/4 33 1.37 4/4 2 2.05 9.89 2 231 7.57E−05 RS1792369 1.24 1/4 112 1.3 4/4 82 1.43 9.88 2 233 7.61E−05 RS2889611 1.26 1/4 114 1.35 4/4 35 1.47 9.85 2 229 7.88E−05 RS2101435 1.32 2/3 32 1.34 3/3 2 2.08 9.71 2 215 9.18E−05 RS1112809 1.37 2/4 50 1.21 0/0 0 0 15.63 1 233 1.02E−04 RS1528842 1.37 1/3 56 1.22 0/0 0 0 15.56 1 239 1.05E−04 RS10493822 1.79 2/4 55 1.31 4/4 181 1.33 9.49 2 238 1.08E−04 RS10508901 1.26 3/4 121 1.34 4/4 32 1.47 9.32 2 233 1.28E−04 RS10491954 1.54 1/3 78 1.27 3/3 143 1.34 9.31 2 235 1.29E−04 RS9299446 2.05 1/2 36 1.36 2/2 203 1.32 9.27 2 238 1.33E−04 RS1073939 1.34 1/3 80 1.27 3/3 16 1.56 9.27 2 236 1.33E−04 RS4352250 1.35 2/4 53 1.24 4/4 5 1.68 9.26 2 220 1.38E−04 RS1961544 1.31 2/3 24 1.52 0/0 0 0 15.08 1 211 1.38E−04 RS1810113 1.27 2/4 87 1.42 4/4 34 1.35 9.22 2 236 1.39E−04 RS548987 1.31 2/3 32 1.42 3/3 1 2.21 9.21 2 235 1.41E−04 RS2072506 1.31 1/4 30 1.5 0/0 0 0 14.97 1 234 1.42E−04 RS2899901 1.34 1/3 113 1.38 3/3 51 1.21 9.2 2 235 1.42E−04 RS4341948 1.68 2/4 64 1.25 4/4 171 1.35 9.08 2 237 1.59E−04 RS9317744 1.61 4/4 211 1.32 0/0 0 0 14.77 1 220 1.59E−04 RS1410126 1.74 1/2 58 1.27 2/2 174 1.34 9.01 2 234 1.70E−04 RS10498293 1.62 1/3 51 1.41 3/3 183 1.3 8.99 2 238 1.72E−04 RS10485110 1.74 3/4 69 1.33 4/4 163 1.32 8.98 2 235 1.75E−04 RS2235216 1.74 1/3 71 1.33 3/3 142 1.32 8.97 2 216 1.81E−04 RS10485864 1.32 2/3 49 1.35 3/3 4 1.83 8.94 2 231 1.82E−04 RS10509119 1.34 1/3 45 1.28 3/3 2 2.01 8.87 2 238 1.93E−04 RS4128928 1.47 2/3 120 1.34 3/3 84 1.27 8.84 2 237 1.98E−04 RS2383024 1.27 1/2 99 1.41 2/2 35 1.29 8.83 2 232 2.01E−04 RS10497298 1.68 1/3 63 1.26 3/3 163 1.35 8.83 2 228 2.03E−04 RS166861 1.31 1/3 48 1.39 3/3 3 1.85 8.81 2 237 2.04E−04 RS1324088 1.31 2/4 34 1.41 4/4 1 2.21 8.77 2 237 2.12E−04 RS10516125 1.65 4/4 233 1.32 0/0 0 0 14.13 1 239 2.15E−04 RS10497295 1.68 3/4 64 1.26 4/4 171 1.35 8.73 2 237 2.20E−04 RS295577 1.93 2/3 9 1.49 3/3 223 1.32 8.73 2 231 2.21E−04 RS10493425 1.33 1/2 13 1.23 2/2 2 1.98 8.74 2 219 2.23E−04 RS10501797 1.24 2/3 118 1.3 3/3 90 1.41 8.7 2 237 2.26E−04 RS6702277 1.5 1/3 103 1.27 3/3 114 1.35 8.7 2 233 2.27E−04 RS4368350 1.79 2/4 36 1.26 4/4 173 1.35 8.73 2 210 2.28E−04 RS10514009 1.49 4/4 209 1.31 0/0 0 0 13.93 1 238 2.37E−04 RS1282646 1.34 1/4 33 1.24 4/4 2 1.94 8.63 2 236 2.41E−04 RS1902049 1.31 3/4 90 1.3 4/4 18 1.55 8.62 2 234 2.44E−04 RS1380835 1.34 3/4 62 1.28 4/4 3 1.85 8.59 2 238 2.50E−04 RS2255565 1.33 1/2 53 1.31 2/2 4 1.83 8.57 2 238 2.55E−04 RS2793207 1.32 1/3 17 1.55 0/0 0 0 13.76 1 230 2.60E−04 RS10503573 1.32 1/2 14 1.57 0/0 0 0 13.74 1 239 2.61E−04 RS10521382 1.44 2/2 149 1.3 0/0 0 0 13.75 1 209 2.68E−04 RS2113515 1.33 2/4 55 1.32 4/4 4 1.83 8.46 2 236 2.83E−04 RS692419 1.3 2/4 120 1.39 4/4 54 1.24 8.45 2 235 2.86E−04 RS10484066 1.35 1/2 76 1.26 2/2 22 1.49 8.43 2 228 2.94E−04 RS1329120 1.7 1/3 60 1.3 3/3 172 1.33 8.4 2 236 2.99E−04 RS1406444 1.36 1/2 53 1.23 0/0 0 0 13.38 1 237 3.13E−04 RS10504166 1.78 1/2 57 1.37 2/2 171 1.31 8.35 2 229 3.16E−04 RS572241 1.25 2/4 113 1.35 4/4 43 1.43 8.29 2 231 3.33E−04 RS1945011 1.32 1/3 75 1.24 3/3 160 1.37 8.23 2 236 3.51E−04 RS536617 1.25 2/4 118 1.35 4/4 42 1.43 8.22 2 237 3.54E−04 RS8068574 1.33 1/3 78 1.31 3/3 13 1.6 8.21 2 234 3.58E−04 RS10487012 1.3 2/4 74 1.41 4/4 6 1.07 8.21 2 231 3.59E−04 RS866651 1.32 2/3 69 1.31 3/3 10 1.64 8.2 2 237 3.60E−04 RS3760626 1.26 1/3 130 1.33 3/3 43 1.45 8.18 2 236 3.67E−04 RS10491855 1.51 2/3 89 1.37 3/3 129 1.29 8.15 2 232 3.80E−04 RS2099803 1.31 1/4 124 1.39 4/4 66 1.24 8.11 2 235 3.93E−04 RS1509649 1.68 2/4 58 1.26 4/4 169 1.35 8.1 2 229 3.99E−04 RS10489249 1.33 2/3 61 1.3 3/3 5 1.75 8.05 2 238 4.14E−04 RS877345 1.32 1/2 39 1.35 2/2 3 1.9 8.06 2 219 4.19E−04 RS3116231 1.96 2/3 48 1.38 3/3 189 1.31 8.01 2 236 4.31E−04 RS950206 1.29 2/4 111 1.28 4/4 93 1.41 7.97 2 235 4.48E−04 RS1828384 1.38 2/4 128 1.37 4/4 60 1.23 7.95 2 236 4.56E−04 RS10495074 1.27 2/4 122 1.34 4/4 31 1.48 7.94 2 237 4.60E−04 RS10483507 1.22 1/4 112 1.38 4/4 74 1.34 7.94 2 236 4.60E−04 RS7792197 1.78 1/3 24 1.39 3/3 211 1.32 7.91 2 236 4.73E−04 RS7412987 1.48 2/4 101 1.34 4/4 88 1.27 7.93 2 217 4.74E−04 RS6838 1.48 1/4 122 1.29 4/4 75 1.33 7.91 2 230 4.76E−04 RS950085 1.47 1/4 91 1.32 4/4 54 1.25 8 2 166 4.82E−04 RS1919447 1.37 2/4 52 1.23 0/0 0 0 12.5 1 234 4.90E−04 RS12026256 1.34 1/3 38 1.27 3/3 1 2.21 7.91 2 190 5.02E−04 RS283063 1.47 4/4 204 1.31 0/0 0 0 12.43 1 238 5.07E−04 RS1456196 1.61 1/2 76 1.39 2/2 141 1.29 7.85 2 218 5.10E−04 RS4516081 1.29 2/4 68 1.43 4/4 33 1.28 7.87 2 203 5.11E−04 RS10498032 1.17 1/4 100 1.37 4/4 80 1.34 7.83 2 206 5.28E−04 RS8049647 1.32 1/3 71 1.33 3/3 6 1.72 7.76 2 237 5.44E−04 RS10485435 1.53 1/2 102 1.3 2/2 113 1.32 7.74 2 233 5.57E−04 RS10503419 1.31 1/2 68 1.36 2/2 4 1.77 7.73 2 219 5.70E−04 RS10484065 1.35 1/2 74 1.26 2/2 22 1.49 7.71 2 227 5.76E−04 RS10495783 1.45 2/4 128 1.29 4/4 62 1.33 7.7 2 235 5.77E−04 RS6919514 1.45 4/4 199 1.31 0/0 0 0 12.17 1 238 5.78E−04 RS10489251 1.75 3/4 57 1.31 4/4 175 1.33 7.67 2 234 5.94E−04 RS1372184 1.3 3/4 71 1.43 4/4 4 1.26 7.68 2 219 5.98E−04 RS10485116 1.61 4/4 229 1.32 0/0 0 0 12.09 1 236 6.03E−04 RS250387 1.29 1/3 63 1.43 3/3 7 1.42 7.65 2 235 6.04E−04 RS817504 1.29 3/4 40 1.45 4/4 9 1.35 7.69 2 198 6.08E−04 RS1407390 1.32 2/4 72 1.32 4/4 3 1.87 7.64 2 237 6.09E−04 RS9308931 1.35 1/2 105 1.28 2/2 48 1.45 7.66 2 211 6.15E−04 RS1884772 1.22 2/4 112 1.38 4/4 72 1.34 7.62 2 235 6.22E−04 RS227521 1.34 1/3 43 1.28 3/3 1 2.21 7.62 2 232 6.23E−04 RS2353296 1.89 1/2 29 1.47 2/2 197 1.31 7.6 2 224 6.41E−04 RS10241173 1.32 1/3 54 1.35 3/3 1 2.21 7.61 2 214 6.42E−04 RS10508896 1.35 1/3 25 1.17 3/3 2 1.11 7.58 2 237 6.44E−04 RS2292889 1.2 2/3 78 1.26 3/3 150 1.38 7.57 2 233 6.53E−04 RS10486853 1.31 2/4 41 1.4 4/4 2 1.9 7.57 2 229 6.55E−04 RS1559751 1.33 1/3 105 1.29 3/3 31 1.49 7.56 2 238 6.56E−04 RS10484317 1.32 2/3 18 1.37 3/3 2 1.98 7.56 2 234 6.58E−04 RS896990 1.96 1/2 41 1.38 2/2 191 1.32 7.56 2 231 6.60E−04 RS965193 1.34 3/4 74 1.29 4/4 6 1.69 7.54 2 238 6.68E−04 RS7850478 1.51 1/3 92 1.36 3/3 132 1.29 7.54 2 238 6.68E−04 RS6492611 1.58 1/3 75 1.33 3/3 142 1.32 7.55 2 228 6.68E−04 RS492681 1.39 2/4 65 1.43 4/4 159 1.29 7.53 2 233 6.78E−04 RS1029233 1.24 1/2 84 1.41 2/2 131 1.3 7.51 2 235 6.89E−04 RS487707 1.29 1/3 102 1.4 3/3 21 1.24 7.5 2 236 6.95E−04 RS1427421 1.39 1/3 38 1.47 3/3 186 1.3 7.51 2 224 6.97E−04 RS10520892 1.32 2/4 39 1.33 4/4 3 1.87 7.48 2 236 7.08E−04 RS10484921 1.4 1/2 83 1.25 2/2 115 1.38 7.5 2 217 7.09E−04 RS1880438 1.3 2/4 94 1.41 4/4 30 1.24 7.48 2 228 7.14E−04 RS945849 1.33 1/3 76 1.32 3/3 3 1.87 7.47 2 237 7.14E−04 RS10518821 1.34 1/3 80 1.3 3/3 6 1.69 7.47 2 237 7.14E−04 RS352427 1.32 1/3 13 1.57 3/3 1 1.6 7.44 2 237 7.35E−04 RS768747 1.3 2/4 63 1.43 4/4 8 1.18 7.43 2 235 7.43E−04 RS295525 1.93 2/4 8 1.47 4/4 231 1.32 7.42 2 238 7.48E−04 RS10517836 1.31 2/4 33 1.41 4/4 6 1.64 7.43 2 222 7.53E−04 RS6477845 1.87 1/3 71 1.32 3/3 165 1.32 7.41 2 236 7.57E−04 RS7874576 1.74 3/3 233 1.33 0/0 0 0 11.64 1 235 7.60E−04 RS823638 1.87 1/3 57 1.34 3/3 155 1.32 7.43 2 212 7.61E−04 RS1387551 2.21 2/4 27 1.39 4/4 206 1.32 7.39 2 231 7.75E−04 RS962592 1.32 2/4 6 1.67 0/0 0 0 11.57 1 238 7.86E−04 RS10500985 1.66 1/2 71 1.35 2/2 141 1.3 7.39 2 215 7.87E−04 RS7470491 1.33 2/4 74 1.32 4/4 3 1.87 7.36 2 235 7.94E−04 RS9294812 1.32 2/3 90 1.31 3/3 21 1.53 7.36 2 223 8.03E−04 RS7719212 1.32 2/3 16 1.41 3/3 1 2.21 7.34 2 236 8.08E−04 RS2291386 1.31 2/4 26 1.49 0/0 0 0 11.5 1 239 8.14E−04 RS10498292 1.29 1/3 67 1.42 3/3 9 1.42 7.3 2 238 8.38E−04 RS10494066 1.71 2/4 82 1.32 4/4 150 1.33 7.3 2 235 8.40E−04 RS9303347 1 1/3 13 1.57 3/3 221 1.32 7.28 2 232 8.58E−04 RS10521202 1.45 2/4 94 1.29 4/4 70 1.31 7.3 2 213 8.58E−04 RS700049 1.87 1/2 74 1.33 2/2 157 1.33 7.26 2 231 8.75E−04 RS9304301 1.33 2/4 19 1.26 4/4 1 2.21 7.25 2 234 8.81E−04 RS718153 1.5 1/3 110 1.31 3/3 100 1.31 7.25 2 233 8.82E−04 RS1893120 1.24 2/4 80 1.29 4/4 89 1.4 7.29 2 197 8.82E−04 RS10500668 2.21 2/4 27 1.28 4/4 213 1.34 7.23 2 238 8.95E−04 RS10497650 1.69 4/4 223 1.32 0/0 0 0 11.33 1 226 8.96E−04 RS878016 1.3 1/2 81 1.34 2/2 29 1.49 7.21 2 237 9.13E−04 RS2474263 1.23 3/4 106 1.3 4/4 98 1.4 7.2 2 234 9.24E−04 RS10518533 1.78 1/2 100 1.31 2/2 122 1.33 7.2 2 233 9.33E−04 RS1566728 1.29 1/3 94 1.41 3/3 14 1.25 7.18 2 237 9.39E−04 RS7841198 1.79 2/3 29 1.47 3/3 209 1.31 7.18 2 236 9.40E−04 RS3827702 1.3 2/4 60 1.34 4/4 19 1.53 7.22 2 196 9.43E−04 RS901682 1.11 1/3 21 1.16 3/3 214 1.35 7.15 2 234 9.68E−04 RS10490353 1.33 2/3 43 1.3 3/3 2 1.96 7.11 2 238 1.00E−03 RS246558 1.31 1/3 61 1.36 3/3 5 1.72 7.11 2 236 1.00E−03 RS10513993 2.21 3/4 26 1.28 4/4 212 1.34 7.11 2 236 1.00E−03 RS8027192 1.7 2/4 64 1.3 4/4 170 1.33 7.1 2 237 1.01E−03 RS9327673 1.52 1/3 95 1.31 3/3 125 1.32 7.09 2 238 1.02E−03 RS7107851 1.29 2/3 81 1.39 3/3 6 1.57 7.08 2 238 1.03E−03 RS6798797 1.32 1/3 14 1.36 3/3 2 1.97 7.08 2 233 1.04E−04 RS2369669 1.33 1/3 65 1.28 3/3 33 1.48 7.09 2 208 1.05E−03 RS967326 1.31 2/4 30 1.47 4/4 1 1.79 7.06 2 237 1.05E−03 RS10484518 1.34 3/4 100 1.4 4/4 111 1.27 7.05 2 231 1.07E−03 RS10521979 1.45 4/4 198 1.31 0/0 0 0 10.97 1 237 1.07E−03 RS965158 1.57 4/4 230 1.32 0/0 0 0 10.95 1 239 1.08E−03 RS2294311 1.37 1/3 89 1.4 3/3 134 1.28 7 2 236 1.11E−03 RS10497649 1.63 3/3 234 1.32 0/0 0 0 10.88 1 239 1.12E−03 RS1217654 1.34 2/4 36 1.3 4/4 1 2.21 7 2 228 1.12E−03 RS1773409 1.65 1/3 47 1.26 3/3 188 1.34 6.99 2 238 1.12E−03 RS9323682 1.21 1/3 36 1.47 3/3 200 1.31 6.99 2 235 1.12E−03 RS2503102 1.4 1/3 74 1.3 3/3 34 1.24 7.02 2 204 1.13E−03 RS3745718 1.4 1/3 122 1.27 3/3 45 1.39 6.98 2 238 1.13E−03 RS370480 1.51 3/4 110 1.33 4/4 109 1.3 6.97 2 238 1.14E−03 RS1217656 2.21 1/2 38 1.29 2/2 200 1.34 6.97 2 236 1.15E−03 RS10510715 1.97 2/4 8 1.28 4/4 230 1.33 6.93 2 237 1.19E−03 RS4510935 1.66 2/4 60 1.37 4/4 174 1.31 6.93 2 237 1.19E−03 RS2064572 1.3 1/3 100 1.41 3/3 50 1.26 6.95 2 213 1.19E−03 RS10486848 1.32 2/4 61 1.32 4/4 11 1.6 6.93 2 234 1.19E−03 RS10515869 1.44 1/3 119 1.29 3/3 69 1.33 6.91 2 234 1.21E−03 RS10499436 1.45 1/3 85 1.38 3/3 126 1.28 6.91 2 227 1.22E−03 RS10510714 1.33 1/3 15 1.35 3/3 2 1.97 6.9 2 238 1.22E−03 RS724620 1.25 4/4 148 1.37 0/0 0 0 10.72 1 218 1.23E−03 RS6109935 1.52 2/4 82 1.34 4/4 117 1.3 6.9 2 215 1.25E−03 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1.91 2/3 43 1.29 3/3 195 1.34 6.04 2 237 2.76E−03 RS9306468 1.37 1/3 81 1.29 3/3 11 1.15 6.04 2 235 2.77E−03 RS2825652 1.32 2/3 10 1.56 0/0 0 0 9.14 1 238 2.77E−03 RS9325559 1.67 1/3 67 1.31 3/3 119 1.32 6.07 2 189 2.79E−03 RS1519684 1.42 2/4 118 1.36 4/4 89 1.26 6.03 2 232 2.80E−03 RS4533975 1.33 2/4 60 1.28 4/4 16 1.52 6.03 2 229 2.80E−03 RS2973234 1.33 2/4 78 1.3 4/4 22 1.51 6.04 2 212 2.81E−03 RS10513319 1.32 1/3 16 1.51 0/0 0 0 9.11 1 238 2.82E−03 RS847852 1.26 1/3 110 1.39 3/3 89 1.29 6.01 2 235 2.85E−03 RS9319997 1.37 2/4 76 1.26 4/4 7 1.46 6.01 2 231 2.85E−03 RS953177 1.32 2/4 26 1.47 0/0 0 0 9.08 1 237 2.86E−03 RS10489474 1.33 2/4 72 1.29 4/4 10 1.58 6 2 238 2.87E−03 RS10490347 1.36 2/4 46 1.22 4/4 194 1.36 6 2 238 2.87E−03 RS947271 1.43 1/3 106 1.31 3/3 76 1.3 6 2 235 2.87E−03 RS1608272 1.3 1/4 93 1.4 4/4 18 1.24 5.99 2 237 2.90E−03 RS9320780 1.17 1/3 74 1.4 3/3 132 1.32 6 2 216 2.91E−03 RS10516971 1.38 1/3 86 1.28 3/3 13 1.23 5.98 2 235 2.93E−03 RS4597125 1.63 1/3 65 1.36 3/3 149 1.3 5.99 2 217 2.94E−03 RS10493351 1.32 2/4 10 1.56 0/0 0 0 9.03 1 239 2.94E−03 RS756458 1.28 2/3 79 1.41 3/3 144 1.3 5.97 2 238 2.95E−03 RS333856 1.61 2/2 234 1.32 0/0 0 0 9.02 1 239 2.95E−03 RS6844368 1.31 3/4 120 1.29 4/4 81 1.41 5.97 2 236 2.96E−03 RS4146127 1.31 1/3 70 1.39 3/3 4 1.66 5.97 2 232 2.96E−03 RS1254275 1.66 3/4 58 1.3 4/4 169 1.33 5.97 2 230 2.97E−03 RS2804861 1.32 1/3 55 1.42 3/3 8 1.16 5.97 2 229 2.97E−03 RS1268444 1.26 2/4 103 1.38 4/4 27 1.39 5.98 2 214 2.97E−03 RS176157 1.89 1/3 34 1.38 3/3 205 1.32 5.96 2 238 2.98E−03 RS10506681 1.27 2/4 110 1.36 4/4 31 1.43 5.96 2 237 2.98E−03 RS1581412 1.24 2/4 98 1.39 4/4 109 1.3 5.96 2 236 2.98E−03 RS2111826 1.22 3/3 201 1.35 0/0 0 0 9 1 236 2.99E−03 RS2018842 1.39 1/3 119 1.33 3/3 37 1.22 5.96 2 233 2.99E−03 RS1298362 1.23 1/3 112 1.34 3/3 65 1.38 5.96 2 226 3.00E−03 RS4492337 1.28 1/3 95 1.38 3/3 24 1.44 5.96 2 225 3.00E−03 RS2246219 1.14 1/3 95 1.35 3/3 127 1.34 5.95 2 236 3.01E−03 RS9285977 1.3 2/4 110 1.39 4/4 55 1.26 5.95 2 230 3.02E−03 RS9322914 1.33 2/4 48 1.31 4/4 5 1.7 5.95 2 228 3.03E−03 RS4721923 1.28 3/4 89 1.41 4/4 129 1.3 5.94 2 236 3.04E−03 RS4140855 1.5 1/3 36 1.23 3/3 155 1.36 5.97 2 196 3.04E−03 RS10518014 1.29 1/3 104 1.28 3/3 110 1.39 5.93 2 231 3.08E−03 RS1979739 1.25 1/3 60 1.42 3/3 100 1.31 5.96 2 191 3.08E−03 RS10515526 1.61 3/3 234 1.32 0/0 0 0 8.93 1 239 3.10E−03 RS2887919 1.42 1/4 97 1.27 4/4 120 1.36 5.92 2 235 3.10E−03 RS6954168 1.32 2/4 7 1.6 0/0 0 0 8.91 1 238 3.13E−03 RS2825673 1.48 2/4 43 1.44 4/4 186 1.31 5.91 2 232 3.14E−03 RS4608876 1.29 1/2 105 1.39 2/2 32 1.27 5.9 2 238 3.16E−03 RS7241109 1.27 1/3 100 1.39 3/3 23 1.35 5.9 2 232 3.17E−03 RS2042651 1.27 1/3 104 1.4 3/3 98 1.29 5.91 2 217 3.17E−03 RS4661451 1.28 1/3 127 1.39 3/3 59 1.28 5.89 2 236 3.19E−03 RS6708913 1.79 1/3 38 1.29 3/3 180 1.33 5.9 2 218 3.20E−03 RS211587 1.89 2/4 52 1.29 4/4 186 1.34 5.88 2 237 3.22E−03 RS2409113 1.29 2/4 75 1.41 4/4 11 1.34 5.88 2 235 3.22E−03 RS7926211 1.24 1/3 82 1.41 3/3 138 1.3 5.87 2 237 3.25E−03 RS11232919 1.92 2/4 61 1.32 4/4 177 1.33 5.87 2 237 3.25E−03 RS720613 1.31 2/4 71 1.34 4/4 10 1.59 5.88 2 220 3.25E−03 RS10498518 1.45 1/3 106 1.28 3/3 102 1.36 5.87 2 235 3.25E−03 RS2670607 1.82 1/4 44 1.33 4/4 190 1.33 5.87 2 234 3.26E−03 RS10506700 1.36 2/4 76 1.3 4/4 6 1.03 5.87 2 229 3.27E−03 RS10496626 1.49 4/4 216 1.32 0/0 0 0 8.83 1 233 3.27E−03 RS10514450 1.81 2/4 53 1.34 4/4 168 1.32 5.87 2 221 3.28E−03 RS2288272 1.33 2/4 83 1.28 4/4 34 1.45 5.86 2 227 3.30E−03 RS1938327 1.32 1/3 18 1.5 0/0 0 0 8.81 1 238 3.30E−03 RS1296210 1.43 2/3 112 1.29 3/3 71 1.32 5.85 2 237 3.31E−03 RS10495058 1.61 3/3 227 1.32 0/0 0 0 8.79 1 232 3.34E−03 RS10507605 1.32 1/4 25 1.39 4/4 2 1.88 5.84 2 235 3.35E−03 RS1944989 1.47 1/3 96 1.27 3/3 126 1.36 5.84 2 233 3.35E−03 RS10490838 1.32 1/3 15 1.51 0/0 0 0 8.78 1 239 3.35E−03 RS2257086 1.3 2/4 78 1.42 4/4 15 1.35 5.84 2 224 3.37E−03 RS6601146 1.29 3/4 81 1.27 4/4 132 1.38 5.83 2 233 3.38E−03 RS25931 1.44 3/3 203 1.31 0/0 0 0 8.76 1 239 3.39E−03 RS10516613 1.29 2/3 89 1.42 3/3 43 1.3 5.86 2 190 3.39E−03 RS1931991 1.08 3/4 34 1.42 4/4 200 1.33 5.82 2 238 3.41E−03 RS261861 1.24 1/3 107 1.31 3/3 86 1.39 5.82 2 228 3.43E−03 RS1460176 1.28 1/2 107 1.4 2/2 27 1.29 5.81 2 236 3.44E−03 RS10504744 1.31 2/3 108 1.31 3/3 32 1.47 5.81 2 236 3.44E−03 RS10484407 1.06 1/3 11 1.55 3/3 223 1.32 5.81 2 233 3.45E−03 RS4722207 1.47 1/2 106 1.29 2/2 103 1.34 5.81 2 233 3.45E−03 RS2009373 1.38 2/4 122 1.28 4/4 71 1.39 5.81 2 231 3.45E−03 RS10518901 1.27 1/3 96 1.34 3/3 48 1.42 5.81 2 221 3.47E−03 RS173036 1.32 2/4 10 1.56 0/0 0 0 8.71 1 239 3.48E−03 RS7718000 1.65 3/3 232 1.32 0/0 0 0 8.69 1 235 3.52E−03 RS10496647 1.96 1/3 31 1.24 3/3 209 1.34 5.78 2 238 3.54E−03 RS2374031 1.32 1/3 82 1.32 3/3 16 1.53 5.78 2 238 3.54E−03 RS10503066 1.37 1/3 76 1.26 3/3 11 1.39 5.78 2 237 3.54E−03 RS4764277 1.26 1/3 107 1.39 3/3 44 1.32 5.79 2 221 3.54E−03 RS6977649 1.92 2/3 32 1.31 3/3 202 1.33 5.78 2 233 3.55E−03 RS1119006 1.31 3/4 23 1.46 0/0 0 0 8.67 1 237 3.56E−03 RS2827082 1.69 2/4 78 1.33 4/4 149 1.31 5.78 2 229 3.56E−03 RS185926 1.04 1/4 16 1.52 4/4 213 1.32 5.78 2 227 3.56E−03 RS1434817 1.86 1/3 4 1.01 3/3 234 1.34 5.77 2 236 3.58E−03 RS9313999 1.42 2/4 124 1.29 4/4 51 1.35 5.77 2 235 3.58E−03 RS1011439 1 1/3 13 1.54 3/3 227 1.32 5.76 2 238 3.61E−03 RS7706518 1.31 1/3 42 1.45 3/3 3 1.37 5.76 2 237 3.61E−03 RS2157768 1.32 1/3 13 1.54 3/3 1 1 5.76 2 237 3.61E−03 RS718883 1.32 1/3 80 1.32 3/3 15 1.54 5.76 2 232 3.62E−03 RS6673693 1.64 1/2 64 1.33 2/2 156 1.32 5.76 2 224 3.64E−03 RS889053 1.12 1/3 77 1.3 3/3 150 1.36 5.75 2 235 3.65E−03 RS10498602 1.16 4/4 224 1.34 0/0 0 0 8.62 1 238 3.65E−03 RS10483512 1.26 2/4 104 1.38 4/4 52 1.37 5.75 2 233 3.65E−03 RS2362932 1.47 1/3 69 1.33 3/3 97 1.3 5.77 2 197 3.67E−03 RS1497504 1.62 1/3 66 1.35 3/3 166 1.31 5.74 2 236 3.68E−03 RS10521241 1.58 1/3 70 1.26 3/3 162 1.35 5.74 2 233 3.69E−03 RS1025748 1.33 1/2 70 1.29 2/2 15 1.53 5.74 2 230 3.69E−03 RS10484973 1.48 2/4 70 1.39 4/4 148 1.3 5.74 2 229 3.70E−03 RS1374028 1.35 1/3 31 1.19 3/3 1 1.19 5.75 2 212 3.70E−03 RS2842527 1.39 1/3 104 1.27 3/3 39 1.37 5.74 2 226 3.70E−03 RS5979345 1.32 3/3 13 1.53 0/0 0 0 8.59 1 238 3.71E−03 RS9312013 1.32 3/4 11 1.54 0/0 0 0 8.6 1 223 3.71E−03 RS10507607 1.32 2/3 27 1.38 3/3 2 1.88 5.73 2 237 3.71E−03 RS10494826 1.35 2/4 71 1.41 4/4 156 1.29 5.73 2 235 3.72E−03 RS634785 1.34 2/4 23 1.19 0/0 0 0 8.59 1 229 3.72E−03 RS737911 1.15 1/3 74 1.29 3/3 147 1.37 5.73 2 229 3.73E−03 RS4684321 1.32 1/3 23 1.48 0/0 0 0 8.55 1 239 3.79E−03 RS2175935 1.32 3/4 54 1.42 4/4 6 1.13 5.71 2 232 3.80E−03 RS25937 1.44 3/3 203 1.31 0/0 0 0 8.54 1 238 3.81E−03 RS10507118 1.51 2/3 39 1.23 3/3 136 1.37 5.72 2 176 3.81E−03 RS2833581 1.41 2/3 99 1.36 3/3 98 1.27 5.7 2 235 3.83E−03 RS10482871 1.65 3/3 236 1.33 0/0 0 0 8.53 1 239 3.83E−03 RS4122274 1.44 1/3 96 1.36 3/3 112 1.28 5.7 2 233 3.83E−03 RS10521316 1.25 2/3 115 1.35 3/3 54 1.4 5.7 2 230 3.84E−03 RS6673237 1.31 1/3 67 1.41 3/3 6 1.14 5.69 2 237 3.86E−03 RS2409037 1.31 3/4 42 1.45 4/4 3 1.37 5.69 2 236 3.86E−03 RS10503069 1.37 1/3 76 1.26 3/3 11 1.39 5.69 2 236 3.86E−03 RS9784951 1.28 1/3 88 1.39 3/3 18 1.34 5.69 2 232 3.87E−03 RS10501171 1.37 2/4 124 1.28 4/4 27 1.43 5.68 2 236 3.90E−03 RS660274 1.32 1/3 49 1.42 3/3 114 1.29 5.73 2 170 3.91E−03 RS10508378 1.96 2/4 16 1.2 4/4 224 1.34 5.67 2 238 3.93E−03 RS1386971 1.32 2/4 6 1.62 0/0 0 0 8.48 1 238 3.93E−03 RS1153606 1.33 1/3 76 1.32 3/3 5 1.7 5.67 2 236 3.93E−03 RS1905015 1.46 1/3 118 1.33 3/3 90 1.29 5.67 2 236 3.93E−03 RS10506168 1.35 1/2 72 1.33 2/2 14 1.12 5.67 2 236 3.93E−03 RS1409993 1.28 4/4 125 1.38 0/0 0 0 8.48 1 236 3.93E−03 RS2131774 1.31 1/3 56 1.25 3/3 123 1.39 5.7 2 182 3.97E−03 RS2831853 1.34 2/3 10 1.11 0/0 0 0 8.46 1 235 3.98E−03 RS10515792 1.36 2/4 79 1.31 4/4 11 1.12 5.66 2 232 3.98E−03 RS6902590 1.28 1/4 97 1.37 4/4 24 1.44 5.66 2 232 3.98E−03 RS1904165 1.22 1/2 30 1.47 2/2 185 1.32 5.67 2 215 3.98E−03 RS10487019 1.66 2/4 27 1.45 4/4 211 1.31 5.64 2 237 4.05E−03 RS9310715 1.33 1/3 79 1.3 3/3 10 1.57 5.65 2 220 4.05E−03 RS1410364 1.31 2/4 69 1.38 4/4 12 1.53 5.65 2 218 4.05E−03 RS1044045 1.37 1/3 66 1.25 3/3 9 1.34 5.64 2 230 4.06E−03 RS5754499 1.19 4/4 218 1.35 0/0 0 0 8.41 1 238 4.08E−03 RS3770899 1.05 1/3 31 1.46 3/3 205 1.31 5.63 2 234 4.09E−03 RS2241577 1.5 1/2 66 1.4 2/2 166 1.3 5.62 2 235 4.13E−03 RS10502543 1.37 1/2 98 1.39 2/2 117 1.28 5.62 2 234 4.13E−03 RS10508405 1.32 1/3 82 1.39 3/3 24 1.21 5.63 2 215 4.14E−03 RS6776797 1.32 2/3 13 1.52 0/0 0 0 8.38 1 239 4.14E−03 RS7241410 1.36 2/3 100 1.39 3/3 102 1.27 5.62 2 221 4.16E−03 RS896043 1.5 3/4 93 1.31 4/4 126 1.32 5.61 2 237 4.16E−03 RS397405 1.47 4/4 210 1.31 0/0 0 0 8.37 1 230 4.18E−03 RS2054915 1.31 1/2 125 1.38 2/2 45 1.24 5.61 2 228 4.18E−03 RS32218 1.42 2/4 67 1.41 4/4 145 1.29 5.61 2 222 4.20E−03 RS10485828 1.06 2/3 37 1.4 3/3 180 1.33 5.61 2 221 4.20E−03 RS10495390 1.31 2/4 38 1.45 4/4 3 1.43 5.6 2 235 4.21E−03 RS7161975 1.32 2/4 36 1.45 0/0 0 0 8.36 1 224 4.21E−03 RS10510156 1.34 1/4 48 1.44 4/4 174 1.3 5.6 2 224 4.23E−03 RS615696 1.64 2/4 63 1.32 4/4 155 1.32 5.6 2 221 4.24E−03 RS10492136 1.9 2/4 33 1.3 4/4 205 1.33 5.59 2 237 4.24E−03 RS1318822 1.26 1/3 114 1.37 3/3 37 1.37 5.59 2 235 4.25E−03 RS823986 1.39 1/3 128 1.29 3/3 78 1.4 5.59 2 224 4.27E−03 RS924159 1.3 4/4 76 1.4 0/0 0 0 8.32 1 238 4.28E−03 RS10508876 1.32 2/4 27 1.48 4/4 5 1.2 5.58 2 234 4.29E−03 RS4935712 1.31 2/4 121 1.38 4/4 48 1.25 5.58 2 231 4.30E−03 RS10497723 1.35 1/3 32 1.22 0/0 0 0 8.3 1 237 4.33E−03 RS1063964 1.4 2/4 101 1.29 4/4 33 1.29 5.57 2 234 4.33E−03 RS2169141 1.25 1/3 113 1.37 3/3 60 1.35 5.57 2 234 4.33E−03 RS10484846 1.68 2/3 50 1.34 3/3 159 1.31 5.58 2 211 4.35E−03 RS10483541 1.55 4/4 229 1.32 0/0 0 0 8.29 1 237 4.35E−03 RS9304675 1.33 2/3 111 1.29 3/3 32 1.46 5.56 2 236 4.37E−03 RS10508895 1.11 1/3 20 1.19 3/3 197 1.36 5.57 2 216 4.38E−03 RS10494231 1.43 2/4 76 1.29 4/4 72 1.29 5.58 2 199 4.39E−03 RS1944487 1.39 1/3 119 1.28 3/3 59 1.37 5.55 2 238 4.41E−03 RS10503056 1.37 2/4 76 1.26 4/4 11 1.4 5.55 2 235 4.41E−03 RS4578215 1.6 4/4 234 1.32 0/0 0 0 8.26 1 239 4.42E−03 RS1429130 1.32 1/3 23 1.47 0/0 0 0 8.25 1 223 4.47E−03 RS1915552 1.31 1/4 128 1.38 4/4 72 1.26 5.54 2 230 4.47E−03 RS724023 1.35 1/3 28 1.2 0/0 0 0 8.24 1 234 4.47E−03 RS1993306 1.12 1/4 77 1.31 4/4 142 1.36 5.54 2 227 4.48E−03 RS2593963 1.2 2/4 100 1.37 4/4 101 1.35 5.54 2 226 4.48E−03 RS10516142 1.32 2/4 6 1.54 4/4 1 1.96 5.53 2 238 4.49E−03 RS8076457 1.32 2/4 68 1.32 4/4 8 1.61 5.53 2 236 4.50E−03 RS522085 1.35 1/3 75 1.27 3/3 11 1.5 5.53 2 233 4.50E−03 RS7794555 1.31 2/4 32 1.45 0/0 0 0 8.22 1 237 4.52E−03 RS2014617 1.32 2/4 92 1.38 4/4 12 1.15 5.52 2 238 4.54E−03 RS10495099 1.31 2/4 39 1.45 4/4 197 1.31 5.52 2 236 4.54E−03 RS10516865 1.33 3/4 5 1.64 0/0 0 0 8.2 1 239 4.56E−03 RS935056 1.43 2/4 102 1.3 4/4 74 1.29 5.52 2 227 4.56E−03 RS1376917 1.17 4/4 221 1.34 0/0 0 0 8.2 1 237 4.56E−03 RS10498603 1.17 3/3 222 1.34 0/0 0 0 8.2 1 237 4.56E−03 RS10511729 1.33 1/2 117 1.3 2/2 37 1.45 5.51 2 237 4.58E−03 RS9323026 1.45 1/3 97 1.3 3/3 84 1.32 5.52 2 219 4.58E−03 RS2346593 1.91 1/2 14 1.31 2/2 223 1.33 5.51 2 236 4.58E−03 RS10515985 1.37 2/4 66 1.25 4/4 11 1.39 5.52 2 217 4.59E−03 RS6966318 1.37 2/4 101 1.31 4/4 24 1.2 5.51 2 232 4.59E−03 RS987479 1.32 1/3 74 1.32 3/3 11 1.56 5.51 2 229 4.60E−03 RS10506835 1.43 2/3 85 1.27 3/3 116 1.36 5.51 2 220 4.62E−03 RS10504742 1.31 1/4 108 1.31 4/4 33 1.46 5.5 2 237 4.63E−03 RS6134885 1.37 3/4 73 1.26 4/4 8 1.49 5.51 2 218 4.63E−03 RS4131870 1.52 2/4 74 1.29 4/4 148 1.33 5.5 2 235 4.63E−03 RS4785953 1.31 1/3 47 1.36 3/3 6 1.64 5.5 2 234 4.63E−03 RS3847222 1.31 1/4 96 1.33 4/4 16 1.52 5.49 2 237 4.67E−03 RS3874273 1.27 1/3 98 1.37 3/3 37 1.39 5.49 2 228 4.69E−03 RS570008 1.37 3/4 116 1.28 4/4 61 1.39 5.48 2 237 4.71E−03 RS745708 1.29 1/3 59 1.41 3/3 8 1.39 5.49 2 210 4.74E−03 RS4984442 1.29 1/3 84 1.4 3/3 17 1.35 5.48 2 225 4.74E−03 RS2973237 1.48 2/4 87 1.31 4/4 112 1.32 5.48 2 222 4.75E−03 RS10521007 1.37 2/4 71 1.27 4/4 14 1.23 5.47 2 238 4.76E−03 RS10489117 1.73 1/2 52 1.33 2/2 184 1.32 5.47 2 237 4.76E−03 RS581277 1.69 2/4 53 1.39 4/4 184 1.31 5.47 2 237 4.76E−03 RS10489115 1.73 2/3 46 1.32 3/3 189 1.32 5.47 2 236 4.76E−03 RS162676 1.36 2/4 99 1.39 4/4 123 1.28 5.47 2 236 4.76E−03 RS3789343 1.37 1/3 78 1.25 3/3 16 1.33 5.47 2 232 4.77E−03 RS918092 1.29 3/4 68 1.4 4/4 9 1.41 5.47 2 226 4.79E−03 RS9303878 1.34 1/4 34 1.25 4/4 2 1.78 5.47 2 226 4.79E−03 RS2078536 1.5 2/4 88 1.3 4/4 101 1.34 5.48 2 209 4.79E−03 RS2347061 1.34 1/3 5 1.06 3/3 1 1.86 5.46 2 238 4.80E−03 RS9325124 1.4 1/3 118 1.37 3/3 89 1.27 5.46 2 237 4.81E−03 RS972432 1.79 2/3 26 1.44 3/3 209 1.31 5.46 2 233 4.82E−03 RS2209426 1.3 1/3 84 1.4 3/3 11 1.26 5.45 2 237 4.85E−03 RS1526723 1.24 2/4 115 1.39 4/4 91 1.31 5.45 2 234 4.86E−03 RS2041442 1.32 2/4 48 1.34 4/4 4 1.73 5.45 2 232 4.86E−03 RS2357344 1.64 2/4 24 1.39 4/4 183 1.31 5.46 2 209 4.88E−03 RS10514136 1.36 1/3 36 1.21 3/3 6 1.28 5.45 2 209 4.93E−03 RS637225 1.43 2/4 97 1.32 4/4 61 1.28 5.44 2 210 4.97E−03 RS3859990 1.31 4/4 29 1.45 0/0 0 0 7.8 1 236 5.65E−03

TABLE 7 The most significant haplotype regions for APOA1 based on HaploRec + HPM analysis. RS_id SEQ_ID_no Gene Gene_id Chr Position P-value RS1016579 881 8 129269143 1.00E−04 RS10502465 2490 18 20848719 1.00E−04 RS10508903 983 MAPK8 5599 10 49311338 1.00E−04 RS10517832 1745 4 63462068 1.00E−04 RS1395734 1746 4 63540641 1.00E−04 RS159375 1839 NDUFA12L 91942 5 60469024 1.00E−04 RS1941915 2499 18 21596530 1.00E−04 RS2220486 1162 DKFZp761O2018 92293 12 127658094 1.00E−04 RS295525 525 5 60508623 1.00E−04 RS295577 524 NDUFA12L 91942 5 60457592 1.00E−04 RS39661 1840 NDUFA12L 91942 5 60477844 1.00E−04 RS536617 2266 FAT3 120114 11 91943638 1.00E−04 RS540248 2265 FAT3 120114 11 91943248 1.00E−04 RS665889 915 9 86972031 1.00E−04 RS7407453 2498 18 21567347 1.00E−04 RS9297772 2167 8 129264644 1.00E−04 RS9317818 2361 13 68921367 1.00E−04 RS10502466 2491 18 20853692 2.00E−04 RS10507767 2358 13 68846283 2.00E−04 RS1322177 1911 BMP6 654 6 7755920 2.00E−04 RS1330538 2362 13 68929072 2.00E−04 RS1806083 1810 SEMA5A 9037 5 9253348 2.00E−04 RS2056247 1092 11 93315872 2.00E−04 RS2398417 1163 DKFZp761O2018 92293 12 127719497 2.00E−04 RS2852861 2274 FAT3 120114 11 92092036 2.00E−04 RS4131454 2492 ZNF521 25925 18 21035848 2.00E−04 RS4838626 2214 ARHGAP22 58504 10 49443676 2.00E−04 RS507575 1995 TPD52L1 7164 6 125559665 2.00E−04 RS514096 1996 TPD52L1 7164 6 125569006 2.00E−04 RS6874699 1830 ELOVL7 79993 5 60109757 2.00E−04 RS965986 1994 TPD52L1 7164 6 125544750 2.00E−04 RS10492292 2168 8 129272373 3.00E−04 RS10495390 116 RYR2 6262 1 235379636 3.00E−04 RS10498673 1912 BMP6 654 6 7770256 3.00E−04 RS10501795 2273 FAT3 120114 11 92087066 3.00E−04 RS10503626 808 PSD3 23362 8 18591364 3.00E−04 RS10514906 1841 5 60510338 3.00E−04 RS1806110 1811 SEMA5A 9037 5 9253540 3.00E−04 RS295561 1838 NDUFA12L 91942 5 60435974 3.00E−04 RS4235481 1831 ELOVL7 79993 5 60129144 3.00E−04 RS4908087 71 1 100861182 3.00E−04 RS502357 2267 FAT3 120114 11 91953156 3.00E−04 RS534196 914 9 86868202 3.00E−04 RS724313 2488 18 20842927 3.00E−04 RS787533 10 1 67818897 3.00E−04 RS787534 11 1 67819113 3.00E−04 RS8121515 2547 C20orf133 140733 20 15382681 3.00E−04 RS9291696 1829 ELOVL7 79993 5 60100142 3.00E−04 RS992241 2169 8 129272494 3.00E−04 RS10492047 1158 LOC144678 144678 12 125501283 4.00E−04 RS10498717 624 6 23833783 4.00E−04 RS1577340 2357 13 68840319 4.00E−04 RS1902781 2170 8 129283194 4.00E−04 RS1941616 2487 18 20837040 4.00E−04 RS2182068 625 6 23845925 4.00E−04 RS2208137 2546 C20orf133 140733 20 15373454 4.00E−04 RS295565 1837 NDUFA12L 91942 5 60433914 4.00E−04 RS33924 1880 5 129264038 4.00E−04 RS3847544 2278 FAT3 120114 11 92219842 4.00E−04 RS5007492 2500 18 21662551 4.00E−04 RS530616 1786 NDST4 64579 4 116202568 4.00E−04 RS878016 757 DLGAP2 9228 8 1585693 4.00E−04 RS927402 1910 BMP6 654 6 7755224 4.00E−04 RS9296540 638 6 47418964 4.00E−04 RS9296545 639 6 47433570 4.00E−04 RS959988 1164 SLC15A4 121260 12 127858547 4.00E−04 RS975830 2337 LOC144678 144678 12 125501837 4.00E−04 RS10518315 24 1 69652390 5.00E−04 RS1805960 1812 SEMA5A 9037 5 9268331 5.00E−04 RS1902778 2166 8 129264032 5.00E−04 RS1998846 25 1 69674145 5.00E−04 RS2683408 1748 4 63554481 5.00E−04 RS500409 1787 NDST4 64579 4 116203593 5.00E−04 RS540138 2268 FAT3 120114 11 91953442 5.00E−04 RS572241 2264 FAT3 120114 11 91942082 5.00E−04 RS950964 1539 RYR2 6262 1 235487304 5.00E−04 RS964906 1500 1 100860067 5.00E−04 RS10498293 2380 14 27284686 6.00E−04 RS10507766 2356 13 68838026 6.00E−04 RS10520061 1881 CSS3 337876 5 129355287 6.00E−04 RS1169429 913 9 86853672 6.00E−04 RS1994592 1653 FAM19A4 151647 3 68907175 6.00E−04 RS2168407 2160 COL14A1 7373 8 121425244 6.00E−04 RS2909239 2165 8 129261531 6.00E−04 RS4418368 758 DLGAP2 9228 8 1585785 6.00E−04 RS4765395 2338 LOC144678 144678 12 125519464 6.00E−04 RS566388 1784 NDST4 64579 4 116200944 6.00E−04 RS6470607 2164 8 129255251 6.00E−04 RS6938784 1947 6 42598500 6.00E−04 RS9304495 2504 TAF4B 6875 18 22176091 6.00E−04 RS10485526 2548 C20orf133 140733 20 15383203 7.00E−04 RS10501794 2272 FAT3 120114 11 92082107 7.00E−04 RS10508901 981 MAPK8 5599 10 49297404 7.00E−04 RS10508902 982 MAPK8 5599 10 49311187 7.00E−04 RS1445292 1832 ELOVL7 79993 5 60155879 7.00E−04 RS1460959 1828 ELOVL7 79993 5 60100094 7.00E−04 RS1806111 1809 SEMA5A 9037 5 9253329 7.00E−04 RS1893120 1788 NDST4 64579 4 116230217 7.00E−04 RS1941619 2489 18 20848396 7.00E−04 RS1972602 2476 LOC390843 390843 18 20367962 7.00E−04 RS2139090 2284 11 93363251 7.00E−04 RS7407701 2497 18 21567062 7.00E−04 RS7828096 2095 PSD3 23362 8 18597554 7.00E−04 RS1006609 2477 LOC390843 390843 18 20368055 8.00E−04 RS10491042 2215 ARHGAP22 58504 10 49444215 8.00E−04 RS10493425 9 1 67782715 8.00E−04 RS10517841 1755 4 63584709 8.00E−04 RS1427422 1660 3 69866955 8.00E−04 RS1526211 219 2 184719208 8.00E−04 RS1946424 1659 3 69857899 8.00E−04 RS2118763 513 5 44823303 8.00E−04 RS2297355 920 C9orf125 84302 9 103283578 8.00E−04 RS352254 2363 13 68937642 8.00E−04 RS4122086 2271 FAT3 120114 11 92070494 8.00E−04 RS4896783 1993 TPD52L1 7164 6 125539447 8.00E−04 RS6074891 2545 C20orf133 140733 20 15363912 8.00E−04 RS6938470 640 6 47446050 8.00E−04 RS723276 1836 NDUFA12L 91942 5 60412893 8.00E−04 RS7841198 2096 PSD3 23362 8 18597648 8.00E−04 RS9287218 1538 RYR2 6262 1 235343721 8.00E−04 RS10492048 2339 LOC144678 144678 12 125521407 9.00E−04 RS10505380 2157 COL14A1 7373 8 121395654 9.00E−04 RS10507765 2355 13 68805132 9.00E−04 RS1351633 512 5 44579608 9.00E−04 RS1358091 220 2 184735915 9.00E−04 RS1360156 1954 6 47799167 9.00E−04 RS1418005 26 1 69720212 9.00E−04 RS1547641 623 6 23833200 9.00E−04 RS1929496 921 9 103306774 9.00E−04 RS4129501 2493 ZNF521 25925 18 21170719 9.00E−04 RS6469916 2159 COL14A1 7373 8 121401972 9.00E−04 RS7148166 2388 NUBPL 80224 14 31303436 9.00E−04 RS722833 1332 GAS7 8522 17 9876974 9.00E−04 RS763671 2126 SEC11L2 157708 8 55602883 9.00E−04 RS9298506 2125 SEC11L2 157708 8 55600077 9.00E−04 RS952938 1744 4 63436594 9.00E−04 RS967326 2094 PSD3 23362 8 18591541 9.00E−04 RS10485116 1946 LOC653802 653802 6 42430492 1.00E−03 RS10491272 1882 CSS3 337876 5 129423355 1.00E−03 RS10492294 2175 8 129315597 1.00E−03 RS1586681 912 9 86837254 1.00E−03 RS1622239 2478 18 20386505 1.00E−03 RS1945148 2479 18 20387524 1.00E−03 RS325220 1862 5 98332464 1.00E−03 RS3799751 1997 TPD52L1 7164 6 125569953 1.00E−03 RS4871056 2158 COL14A1 7373 8 121395762 1.00E−03 RS6079817 2544 C20orf133 140733 20 15358067 1.00E−03 RS6916562 1953 GPR115 221393 6 47789453 1.00E−03 RS709386 1863 5 98357950 1.00E−03 RS725819 626 6 23849815 1.00E−03 RS7523565 12 1 67843580 1.00E−03 RS927407 1909 BMP6 654 6 7755127 1.00E−03 RS9291707 1842 5 60511983 1.00E−03 RS970488 2389 NUBPL 80224 14 31319837 1.00E−03 RS719355 1473 1 34628978 1.10E−03 RS10483457 1232 GARNL1 253959 14 35211683 1.10E−03 RS10493933 73 1 100883870 1.10E−03 RS10504166 2123 LOC392222 392222 8 55556364 1.10E−03 RS10512865 514 5 44859124 1.10E−03 RS1526212 218 2 184719102 1.10E−03 RS1981134 72 1 100883793 1.10E−03 RS2939619 2283 11 93356828 1.10E−03 RS4546275 1757 4 63619250 1.10E−03 RS4876117 2071 DLGAP2 9228 8 1589804 1.10E−03 RS516638 1783 NDST4 64579 4 116198917 1.10E−03 RS6830598 1775 NDST4 64579 4 116084463 1.10E−03 RS7239405 2515 18 56812039 1.10E−03 RS10498294 2381 14 27285522 1.20E−03 RS10501809 2280 11 93305911 1.20E−03 RS10501810 2281 11 93306237 1.20E−03 RS10505004 2149 8 102157533 1.20E−03 RS1343788 1616 MGC42174 129563 2 232759753 1.20E−03 RS2346593 1756 4 63606400 1.20E−03 RS2503102 679 LOC442238 442238 6 100650488 1.20E−03 RS2660589 1749 4 63555481 1.20E−03 RS2863227 1879 5 129250974 1.20E−03 RS3116174 1615 MGC42174 129563 2 232717833 1.20E−03 RS558868 1782 NDST4 64579 4 116198572 1.20E−03 RS6748937 221 2 184738190 1.20E−03 RS7158021 2387 NUBPL 80224 14 31301646 1.20E−03 RS7758833 1955 6 47799521 1.20E−03 RS9285766 1488 1 67741313 1.20E−03 RS1023080 1952 GPR115 221393 6 47778169 1.30E−03 RS10491089 1331 GAS7 8522 17 9828100 1.30E−03 RS10498260 253 MGC42174 129563 2 232764865 1.30E−03 RS10501811 2282 11 93309061 1.30E−03 RS10503827 814 8 28223645 1.30E−03 RS10516607 1774 NDST4 66579 4 116047414 1.30E−03 RS2094923 1920 6 14397061 1.30E−03 RS2278016 1308 16 50674510 1.30E−03 RS32904 916 9 86989232 1.30E−03 RS3865407 2505 TAF4B 6875 18 22191304 1.30E−03 RS4349629 1758 4 63640765 1.30E−03 RS533950 1785 NDST4 64579 4 116200998 1.30E−03 RS929780 1833 ERCC8 1161 5 60224783 1.30E−03 RS9298505 2124 SEC11L2 157708 8 55599688 1.30E−03 RS9312103 1754 4 63584684 1.30E−03 RS10491092 1333 GAS7 8522 17 9945918 1.40E−03 RS10505507 2174 8 129311983 1.40E−03 RS10508895 2209 MARCH8 220972 10 45287774 1.40E−0 RS10516608 1776 NDST4 64579 4 116085298 1.40E−03 RS1121922 2093 PSD3 23362 8 18563312 1.40E−03 RS1427421 1661 MITF 4286 3 69870404 1.40E−03 RS1806004 1813 SEMA5A 9037 5 9292427 1.40E−03 RS1946425 1658 3 69857771 1.40E−03 RS1948617 2516 18 56819944 1.40E−03 RS2019441 2496 18 21451878 1.40E−03 RS2876349 1919 6 14354510 1.40E−03 RS4981122 2386 NUBPL 80224 14 31270802 1.40E−03 RS535043 1543 1 236762659 1.40E−03 RS853392 1918 6 14302577 1.40E−03 RS861209 1917 6 14302443 1.40E−03 RS1013997 2269 FAT3 120114 11 91957013 1.50E−03 RS10491854 948 9 119414301 1.50E−03 RS10517411 1723 KIAA1239 57495 4 37068999 1.50E−03 RS1324673 622 6 23820609 1.50E−03 RS2898481 2097 PSD3 23362 8 18598158 1.50E−03 RS6079838 2549 C20orf133 140733 20 15383756 1.50E−03 RS6601422 2082 MSRA 4482 8 10147444 1.50E−03 RS6673250 1546 1 236842031 1.50E−03 RS7823735 2150 8 102189451 1.50E−03 RS9296387 1948 6 42610292 1.50E−03 RS998359 1777 NDST4 64579 4 116090480 1.50E−03 RS10493456 23 1 69651697 1.60E−03 RS1919447 1593 2 148179334 1.60E−03 RS2130437 1652 FAM19A4 151647 3 68906766 1.60E−03 RS7001766 2131 8 73285827 1.60E−03 RS7773311 1951 GPR115 221393 6 47777445 1.60E−03 RS7838059 2083 MSRA 4482 8 10216220 1.60E−03 RS10491855 947 9 119335541 1.70E−03 RS10498295 2382 14 27285584 1.70E−03 RS10501813 2285 11 93375645 1.70E−03 RS10502464 2486 18 20821256 1.70E−03 RS10502475 1376 KCTD1 284252 18 22427942 1.70E−03 RS10512855 511 5 44546969 1.70E−03 RS1379782 1161 12 127624822 1.70E−03 RS158935 1834 ERCC8 1161 5 60273741 1.70E−03 RS279511 1781 NDST4 64579 4 116125572 1.70E−03 RS2949865 2286 HEPHL1 341208 11 93394880 1.70E−03 RS3116231 252 MGC42174 129563 2 232600527 1.70E−03 RS509423 1789 4 116280778 1.70E−03 RS10483458 2397 GARNL1 253959 14 35290074 1.80E−03 RS10498296 2383 14 27308301 1.80E−03 RS10503624 2092 PSD3 23362 8 18562990 1.80E−03 RS10504534 2130 8 73285243 1.80E−03 RS10517214 343 4 47955582 1.80E−03 RS1252144 1537 1 235219020 1.80E−03 RS2346649 1753 4 63584319 1.80E−03 RS242687 2518 18 56917055 1.80E−03 RS2722897 815 PNOC 5368 8 28229116 1.80E−03 RS2820211 1544 1 236767330 1.80E−03 RS2874941 2104 FZD3 7976 8 28429267 1.80E−03 RS586565 1545 1 236825154 1.80E−03 RS7835350 2176 8 129331257 1.80E−03 RS870241 1654 FAM19A4 151647 3 68908072 1.80E−03 RS1019384 2517 18 56879341 1.90E−03 RS10497645 222 2 184738537 1.90E−03 RS2101435 254 MGC42174 129563 2 232823402 1.90E−03 RS2221268 1864 5 98385315 1.90E−03 RS2326994 1908 BMP6 654 6 7755020 1.90E−03 RS2333183 2384 14 27367061 1.90E−03 RS2346648 1752 4 63578452 1.90E−03 RS2435307 1371 NPC1 4864 18 19381908 1.90E−03 RS3958881 2077 8 8939389 1.90E−03 RS4981894 2385 NUBPL 80224 14 31270542 1.90E−03 RS538042 1998 TPD52L1 7164 6 125575909 1.90E−03 RS7821424 2171 8 129284834 1.90E−03 RS9283955 2173 8 129288987 1.90E−03 RS9298203 2129 8 73270276 1.90E−03 RS10497651 217 2 184701354 2.00E−03 RS10503829 2103 FBXO16 157574 8 28389213 2.00E−03 RS10516601 1773 NDST4 64579 4 116046280 2.00E−03 RS1112268 978 10 49217160 2.00E−03 RS1460958 1827 ELOVL7 79993 5 60099333 2.00E−03 RS1528842 209 2 148174046 2.00E−03 RS1585920 1768 4 80146392 2.00E−03 RS1806112 1808 SEMA5A 9037 5 9253137 2.00E−03 RS276650 2132 8 73299514 2.00E−03 RS33350 1307 16 50608803 2.00E−03 RS7009724 2078 8 8976535 2.00E−03 RS798075 1471 1 34709579 2.00E−03 RS963291 1878 5 129230116 2.00E−03 RS10489547 27 1 69741665 2.10E−03 RS10491274 1883 CSS3 337876 5 129446258 2.10E−03 RS10497020 1592 2 148173995 2.10E−03 RS10502474 2506 TAF4B 6875 18 22198825 2.10E−03 RS2107191 1934 6 29542274 2.10E−03 RS2704404 342 4 47929301 2.10E−03 RS6893752 1835 NDUFA12L 91942 5 60410669 2.10E−03 RS787494 13 1 67858174 2.10E−03 RS9287889 1606 STK39 27347 2 168548700 2.10E−03 RS10495392 1540 RYR2 6262 1 235489612 2.20E−03 RS10510207 1620 CNTN6 27255 3 1309530 2.20E−03 RS1480714 1767 4 80145855 2.20E−03 RS260225 1945 LOC653802 563802 6 42427285 2.20E−03 RS6954679 728 7 63134099 2.20E−03 RS798074 1472 1 34709939 2.20E−03 RS798076 1470 1 34709155 2.20E−03 RS10492133 2310 GRIN2B 2904 12 13726080 2.30E−03 RS10508896 2210 MARCH8 220972 10 45350649 2.30E−03 RS10511379 1687 LOC389142 389142 3 119645081 2.30E−03 RS411331 1621 CNTN6 27255 3 1320563 2.30E−03 RS7349908 1932 6 29505500 2.30E−03 RS9295805 1933 6 29505758 2.30E−03 RS1033017 188 MALL 7851 2 110210510 2.40E−03 RS10484547 1935 6 29560753 2.40E−03 RS10502440 1372 LAMA3 3909 18 19583575 2.40E−03 RS10510270 1628 3 3542685 2.40E−03 RS10517410 1722 KIAA1239 57495 4 37045599 2.40E−03 RS10517842 1759 4 63641655 2.40E−03 RS1881740 979 10 49221566 2.40E−03 RS1926256 22 1 69651662 2.40E−03 RS2059232 1306 16 50596704 2.40E−03 RS6458297 1950 UBR2 23304 6 42655869 2.40E−03 RS723733 2151 8 102196496 2.40E−03 RS959987 1165 SLC15A4 121260 12 127858753 2.40E−03 RS10492049 2340 PGBD3P3 267007 12 125558842 2.50E−03 RS10497017 208 2 148158282 2.50E−03 RS10501793 2270 FAT3 120114 11 91957395 2.50E−03 RS10501798 2279 FAT3 120114 11 92224523 2.50E−03 RS10518211 365 4 80156089 2.50E−03 RS185266 1305 16 50595102 2.50E−03 RS4715005 641 6 47472916 2.50E−03 RS906648 1582 LRP1B 53353 2 142204999 2.50E−03 RS9296538 637 6 47302408 2.50E−03 RS9321873 1975 LOC442238 442238 6 100642690 2.50E−03 RS10486529 2034 PTHB1 27241 7 33363277 2.60E−03 RS10491088 1330 GAS7 8522 17 9808904 2.60E−03 RS10492134 2311 GRIN2B 2904 12 13750149 2.60E−03 RS10508900 977 FRMPD2 143162 10 49126059 2.60E−03 RS10510170 1623 CNTN6 27255 3 1349976 2.60E−03 RS10510269 1627 3 3542361 2.60E−03 RS10510991 1662 MITF 4286 3 69924318 2.60E−03 RS1233493 1936 LOC442195 442195 6 29566220 2.60E−03 RS1785741 2501 18 21676577 2.60E−03 RS1792624 2288 11 93561458 2.60E−03 RS6878136 1865 5 98386091 2.60E−03 RS7107851 2287 HEPHL1 341208 11 93396703 2.60E−03 RS779609 1686 LOC389142 389142 3 119539208 2.60E−03 RS787493 14 1 67858307 2.60E−03 RS10493424 1487 1 67729796 2.70E−03 RS10503167 2070 DLGAP2 9228 8 1585073 2.70E−03 RS10512866 515 5 44859710 2.70E−03 RS1073251 1594 2 148179531 2.70E−03 RS1499976 1684 LOC389142 389142 3 119284020 2.70E−03 RS2150738 919 C9orf125 84302 9 103280529 2.70E−03 RS4072525 2177 8 129424336 2.70E−03 RS7837478 2133 8 73323698 2.70E−03 RS862527 1916 6 14281843 2.70E−03 RS901682 2208 MARCH8 220972 10 45285867 2.70E−03 RS10496435 189 NPHP1 4867 2 110286462 2.80E−03 RS10517407 1720 KIAA1239 57495 4 36977725 2.80E−03 RS2165543 1780 NDST4 64579 4 116108687 2.80E−03 RS2345475 1726 4 42443300 2.80E−03 RS2346645 1751 4 63565257 2.80E−03 RS3772295 1622 CNTN6 27255 3 1349539 2.80E−03 RS3844028 74 1 100884203 2.80E−03 RS723804 2437 15 34258962 2.80E−03 RS4570241 950 9 119436799 2.90E−03 RS10511378 1688 LOC389142 389142 3 119645313 2.90E−03 RS10512895 1693 TMEM108 66000 3 134498594 2.90E−03 RS10518856 2438 15 34262252 2.90E−03 RS1926289 16 1 68238520 2.90E−03 RS489743 1944 LOC653802 653802 6 42420978 2.90E−03 RS723734 2152 8 102196618 2.90E−03 RS9312699 349 4 59070339 2.90E−03 RS10516609 1790 4 116303938 3.00E−03 RS1360922 2348 13 37525010 3.00E−03 RS1708370 1694 TMEM108 66000 3 134499004 3.00E−03 RS2817738 1927 6 24899079 3.00E−03 RS4123791 2172 8 129288419 3.00E−03 RS479600 918 9 103242624 3.00E−03 RS9289439 1690 TMEM108 66000 3 134343341 3.00E−03 RS10484893 1931 6 24996530 3.10E−03 RS10510271 1629 3 3546367 3.10E−03 RS1825024 1765 4 80126223 3.10E−03 RS1851006 1278 UNC13C 440279 15 52691684 3.10E−03 RS1986511 1741 4 59062390 3.10E−03 RS2250286 2347 13 37480178 3.10E−03 RS3790888 1495 LPHN2 23266 1 82185299 3.10E−03 RS3790889 1494 LPHN2 23266 1 82185188 3.10E−03 RS9312101 1750 4 63564480 3.10E−03 RS1013985 949 9 119414729 3.20E−03 RS10493703 1493 LPHN2 23266 1 82158504 3.20E−03 RS10510272 1630 3 3546420 3.20E−03 RS1598052 1740 4 59055920 3.20E−03 RS407486 2543 C20orf133 140733 20 15355876 3.20E−03 RS4538379 1651 3 68834680 3.20E−03 RS724815 2375 14 25666000 3.20E−03 RS7599108 1617 MGC42174 129563 2 232845842 3.20E−03 RS8094618 2485 18 20816188 3.20E−03 RS10486527 2033 PTHB1 27241 7 33347198 3.30E−03 RS10497642 216 2 184536677 3.30E−03 RS10517409 1721 KIAA1239 57495 4 37038537 3.30E−03 RS10517440 1739 4 59051560 3.30E−03 RS10517830 1743 4 63388819 3.30E−03 RS10518659 1496 LPHN2 23266 1 82187284 3.30E−03 RS2347027 2336 LOC144678 1446768 12 125501130 3.30E−03 RS2378672 911 NTRK2 4915 9 86820854 3.30E−03 RS352427 816 8 28571996 3.30E−03 RS385367 1497 LPHN2 23266 1 82187787 3.30E−03 RS809663 1685 LOC389142 389142 3 119537598 3.30E−03 RS896990 251 MGC42174 129563 2 232597100 3.30E−03 RS10495394 1541 RYR2 6262 1 235498128 3.40E−03 RS10504002 2118 8 37209534 3.40E−03 RS10510268 1626 3 3539506 3.40E−03 RS1825023 1766 4 80126286 3.40E−03 RS2670876 2182 DDEF1 50807 8 131339068 3.40E−03 RS634403 1542 1 236762603 3.40E−03 RS745708 976 FRMPD2 143162 10 49115681 3.40E−03 RS9297962 2145 8 96655791 3.40E−03 RS942662 627 6 23850282 3.40E−03 RS10503389 2079 8 8977133 3.50E−03 RS10515286 1866 5 98464219 3.50E−03 RS10518853 2436 15 34221604 3.50E−03 RS1549455 2181 DDEF1 50807 8 131334202 3.50E−03 RS1908691 2316 12 29249400 3.50E−03 RS2183248 1956 6 47807084 3.50E−03 RS2590386 980 10 49255436 3.50E−03 RS4371983 2127 SEC11L2 157708 8 5503190 3.50E−03 RS4655769 18 1 68249566 3.50E−03 RS6900726 1949 UBR2 23304 6 42639628 3.50E−03 RS962215 2377 14 25707678 3.50E−03 RS10483459 2398 GARNL1 253959 14 35290406 3.60E−03 RS10505519 2178 8 129493979 3.60E−03 RS10505548 2183 DDEF1 50807 8 131339636 3.60E−03 RS10512891 1691 TMEM108 66000 3 134431549 3.60E−03 RS1529585 1663 MITF 4286 3 69953285 3.60E−03 RS2425570 2554 PTPRT 11122 20 41111765 3.60E−03 RS2474263 678 LOC442238 442238 6 100641976 3.60E−03 RS948435 1373 LAMA3 3909 18 19637770 3.60E−03 RS978313 17 1 68249062 3.60E−03 RS1801758 1329 GAS7 8522 17 9756951 3.70E−03 RS10483312 2376 14 25681375 3.70E−03 RS10517050 1728 4 42443702 3.70E−03 RS1893290 1374 LAMA3 3909 18 19696619 3.70E−03 RS2060639 1692 TMEM108 66000 3 134454348 3.70E−03 RS2575517 1729 4 42496076 3.70E−03 RS3874273 2434 15 34183438 3.70E−03 RS7970144 2308 GRIN2B 2904 12 13724212 3.70E−03 RS10504953 2144 8 96643015 3.80E−03 RS10516125 1893 5 174413439 3.80E−03 RS10517049 1727 4 42443415 3.80E−03 RS1369592 2435 15 34185952 3.80E−03 RS1450917 1730 4 42513998 3.80E−03 RS4128165 457 GLRA3 8001 4 175810278 3.80E−03 RS4695953 459 GLRA3 8001 4 175868286 3.80E−03 RS6531533 1724 KIAA1239 57495 4 37071908 3.80E−03 RS7037164 2198 9 120331565 3.80E−03 RS863660 2346 13 37470769 3.80E−03 RS10518953 2443 LOC390576 390576 15 35569758 3.90E−03 RS1430745 19 1 68319321 3.90E−03 RS171302 2108 8 28578345 3.90E−03 RS2366659 1703 FGF12 2257 3 193570445 3.90E−03 RS273759 2495 18 21450194 3.90E−03 RS2863171 1074 11 45207308 3.90E−03 RS484510 1992 TPD52L1 7164 6 125528599 3.90E−03 RS548825 21 1 69624206 3.90E−03 RS817504 1679 3 119161552 3.90E−03 RS9287324 1585 LRP1B 53353 2 142232977 3.90E−03 RS10498292 1229 14 27284462 4.00E−03 RS10518952 2442 15 35567312 4.00E−03 RS1908690 2317 12 29249561 4.00E−03 RS2474149 1930 6 24993358 4.00E−03 RS4694890 341 TEC 7006 4 47921024 4.00E−03 RS7143770 2407 14 43899026 4.00E−03 RS797054 1642 GADL1 339896 3 30776179 4.00E−03 RS10505005 2148 8 102085828 4.10E−03 RS2863161 2253 PRDM11 56981 11 45178266 4.10E−03 RS6601438 2084 MSRA 4482 8 10217077 4.10E−03 RS10503511 2085 8 14569194 4.20E−03 RS10503621 2090 PSD3 23362 8 18512468 4.20E−03 RS10512854 510 5 44546854 4.20E−03 RS1467596 605 FLJ33708 285780 6 6360933 4.20E−03 RS1493866 2454 16 17822257 4.20E−03 RS2894508 2180 DDEF1 50807 8 131314769 4.20E−03 RS295546 1843 5 60523429 4.20E−06 RS4132476 2197 9 120318112 4.20E−03 RS540970 1377 KCTD1 284252 18 22430481 4.20E−03 RS7653241 1624 CNTN6 27255 3 1371414 4.20E−03 RS1046852 20 C1orf139 79971 1 68363692 4.30E−03 RS10495524 126 2 5848753 4.30E−03 RS10495525 129 2 5904629 4.30E−03 RS10496894 1584 LRP1B 53353 2 142222836 4.30E−03 RS1366236 586 GLRA1 2741 5 151264796 4.30E−03 RS1525912 1704 FGF12 2257 3 193571552 4.30E−03 RS1874069 1742 4 59070504 4.30E−03 RS1912163 340 TEC 7006 4 47905410 4.30E−03 RS2458349 1105 11 105805096 4.30E−03 RS2887526 1868 5 98552712 4.30E−03 RS6030634 2555 PTPRT 11122 20 41140415 4.30E−03 RS6074898 2550 C20orf133 140733 20 15384002 4.30E−03 RS9284299 1277 UNC13C 440279 15 52685923 4.30E−03 RS10496893 1583 LRP1B 53353 2 142222200 4.40E−03 RS10503622 2091 PSD3 23362 8 18513029 4.40E−03 RS10506055 1119 12 30097508 4.40E−03 RS10510640 1644 GADL1 339896 3 30857035 4.40E−03 RS10516126 1894 5 174414039 4.40E−03 RS1352058 458 GLRA3 8001 4 175842980 4.40E−03 RS7588808 1589 2 145578357 4.40E−03 RS10505379 2156 COL14A1 7373 8 121395608 4.50E−03 RS1353447 2240 11 14988673 4.50E−03 RS1501622 1705 FGF12 2257 3 193634069 4.50E−03 RS1818704 1274 UNC13C 440279 15 52679696 4.50E−03 RS2485488 2345 13 37441039 4.50E−03 RS3782513 2318 PTX1 51290 12 29397521 4.50E−03 RS4660275 1479 1 44617545 4.50E−03 RS581187 2114 8 37119893 4.50E−03 RS8009199 2408 14 43947540 4.50E−03 RS9324714 585 GLRA1 2741 5 151223956 4.50E−03 RS949355 2480 18 20419693 4.50E−03 RS10483313 2378 14 25709526 4.60E−03 RS10492383 2319 PTX1 51290 12 29419862 4.60E−03 RS10503831 2107 8 28542929 4.60E−03 RS10506057 1120 12 30159671 4.60E−03 RS1441638 1778 NDST4 64579 4 116094415 4.60E−03 RS176379 2552 PTPRT 11122 20 40898608 4.60E−03 RS1912126 1588 2 145568461 4.60E−03 RS2274822 1921 6 14399068 4.60E−03 RS295543 1844 5 60524136 4.60E−03 RS6493693 1275 UNC13C 440279 15 52679875 4.60E−03 RS10500396 2455 16 17948935 4.70E−03 RS2681962 1276 UNC13C 440279 15 52685879 4.70E−03 RS3758729 2252 PRDM11 56981 11 45165411 4.70E−03 RS3790557 1486 SERBP1 26135 1 67657985 4.70E−03 RS4583980 1929 C6orf32 9750 6 24954242 4.70E−03 RS953816 2294 11 105793764 4.70E−03 RS1860066 1884 CSS3 337876 5 129475223 4.80E−03 RS1993306 1555 LTBP1 4052 2 33299839 4.80E−03 RS242695 2519 18 56920646 4.80E−03 RS4981309 2399 BRMS1L 84312 14 35374119 4.80E−03 RS532022 2116 8 37194096 4.80E−03 RS755043 2223 10 79780432 4.80E−03 RS9317821 2364 13 69008405 4.80E−03 RS9326628 190 2 110323956 4.80E−03 RS10484178 2409 14 43966379 4.90E−03 RS10512876 516 5 45285361 4.90E−03 RS3866642 1480 C1orf164 55182 1 44658509 4.90E−03 RS4695357 339 TEC 7006 4 47893952 4.90E−03 RS6792186 1645 GADL1 339896 3 30867723 4.90E−03 RS7767578 1903 FLJ33708 285780 6 6354844 4.90E−03 RS10483456 2396 GARNL1 253959 14 35105918 5.00E−03 RS10506054 1118 12 30096174 5.00E−03 RS1391340 2514 18 56778284 5.00E−03 RS1541081 1905 FLJ33708 285780 6 6364910 5.00E−03 RS2272709 2072 LOC644668 644668 8 1804452 5.00E−03 RS2278667 852 8 80877490 5.00E−03 RS4605931 1904 FLJ33708 285780 6 6360586 5.00E−03 RS6992703 850 8 80831834 5.00E−03 RS7748118 1906 FLJ33708 285780 6 6401019 5.00E−03 RS989901 922 9 103307086 5.00E−03 RS10503512 2086 8 14592917 5.10E−03 RS1072769 1117 12 30067073 5.10E−03 RS1342501 2196 9 120196645 5.10E−03 RS1346612 128 2 5903374 5.10E−03 RS1393749 1643 GADL1 339896 3 30823369 5.10E−03 RS1394615 1896 5 174448238 5.10E−03 RS2353296 1733 4 47956320 5.10E−03 RS2979710 849 8 80814997 5.10E−03 RS10504709 848 8 80781919 5.20E−03 RS10513331 2195 9 120180459 5.20E−03 RS1429235 127 2 5876965 5.20E−03 RS2294591 2553 PTPRT 11122 20 41066497 5.20E−03 RS4739483 2117 8 37195876 5.20E−03 RS7580778 187 2 109757112 5.20E−03 RS7850478 946 9 119326659 5.20E−03 RS10486526 2031 PTHB1 27241 7 33301917 5.30E−03 RS10514773 1556 LTBP1 4052 2 33334527 5.30E−03 RS574819 1547 1 236844151 5.30E−03 RS617689 2292 11 105767567 5.30E−03 RS9324023 2379 14 27261761 5.30E−03 RS10506053 1116 12 30061626 5.40E−03 RS2185950 2211 10 46509931 5.40E−03 RS2268104 2307 GRIN2B 2904 12 13714030 5.40E−03 RS9296547 642 6 47474339 5.40E−03 RS949637 1895 5 174447933 5.40E−03 RS10486530 2035 PTHB1 27241 7 33364558 5.50E−03 RS10492132 2309 GRIN2B 2904 12 13724820 5.50E−03 RS10492899 1304 16 50583588 5.50E−03 RS10497332 1605 STK39 27347 2 168548561 5.50E−03 RS10502473 2503 TAF4B 6875 18 22175498 5.50E−03 RS161734 1861 CHD1 1105 5 98243608 5.50E−03 RS2347597 584 G3BP 10146 5 151161511 5.50E−03 RS279538 1779 NDST4 64579 4 116105993 5.50E−03 RS723043 157 LTBP1 4052 2 33395291 5.50E−03 RS9291321 1734 4 47956918 5.50E−03 RS10502445 2475 LOC390843 390843 18 20367446 5.60E−03 RS10504165 2122 8 55476487 5.60E−03 RS1149732 2221 10 79656358 5.60E−03 RS1456196 293 3 119137243 5.60E−03 RS1785738 2502 18 21681642 5.60E−03 RS1805082 1370 NPC1 4864 18 19374442 5.60E−03 RS2031393 621 6 23796368 5.60E−03 RS2066387 2194 9 120178850 5.60E−03 RS2764536 28 1 69819828 5.60E−03 RS3884537 2241 11 15020214 5.60E−03 RS9315542 2349 13 37529471 5.60E−03 RS965017 1897 5 174509108 5.60E−03 RS10498721 1928 C6orf32 9750 6 24953309 5.70E−03 RS10502463 2484 18 20815751 5.70E−03 RS10503513 2087 8 14598632 5.70E−03 RS3104997 2143 8 96630910 5.70E−03 RS6987277 766 8 8977241 5.70E−03 RS9283566 1680 3 119162948 5.70E−03 RS1374663 1869 5 98552774 5.80E−03 RS1401154 2115 8 37145702 5.80E−03 RS1549920 583 5 151121037 5.80E−03 RS2102516 2088 8 14623080 5.80E−03 RS3848309 1309 16 50690687 5.80E−03 RS10491511 917 9 103219769 5.90E−03 RS352210 2105 FZD3 7976 8 28438339 5.90E−03 RS567992 2293 11 105767607 5.90E−03 RS716077 2179 DDEF1 50807 8 131194895 5.90E−03 RS795446 1641 GADL1 339896 3 30776092 5.90E−03 RS10483454 2394 14 35046027 6.00E−03 RS10492135 1114 GRIN2B 2904 12 13777535 6.00E−03 RS10516605 1772 NDST4 64579 4 116016924 6.00E−03 RS1877591 2225 10 79784171 6.00E−03 RS2216031 2032 PTHB1 27241 7 33312005 6.00E−03 RS2264044 2089 8 14623176 6.00E−03 RS2282653 2242 CALCB 797 11 15055294 6.00E−03 RS2461055 851 8 80832082 6.00E−03 RS10484608 1973 FBXL4 26235 6 99442369 6.10E−03 RS10490995 2224 10 79780912 6.10E−03 RS1493868 2453 16 17822090 6.10E−03 RS2055420 1706 FGF12 2257 3 193724133 6.10E−03 RS2075933 1469 1 34693662 6.10E−03 RS2123769 1557 LTBP1 4052 2 33378911 6.10E−03 RS2163326 1664 MITF 4286 3 69959373 6.10E−03 RS2284410 2312 GRIN2B 2904 12 13751078 6.10E−03 RS10483455 2395 LOC122592 122592 14 35053977 6.20E−03 RS10492385 2315 12 29248257 6.20E−03 RS4574886 2161 COL14A1 7373 8 121444326 6.20E−03 RS751716 2222 10 79720255 6.20E−03 RS8032707 2444 LOC390576 390576 15 35572205 6.20E−03 RS28181 1814 SEMA5A 9037 5 9297526 6.30E−03 RS10514762 1681 3 119164163 6.40E−03 RS1528776 1536 1 235218861 6.40E−03 RS787433 1590 2 145580328 6.40E−03 RS9302534 2456 16 17956211 6.40E−03 RS10500395 2457 16 17976966 6.50E−03 RS174489 1619 CNTN6 27255 3 1308797 6.50E−03 RS3853364 1477 PRNPIP 79033 1 44544072 6.50E−03 RS1014500 2289 11 93574371 6.60E−03 RS10496974 1591 2 145585112 6.60E−03 RS723042 1558 LTBP1 4052 2 33395206 6.60E−03 RS9285957 1867 5 98528565 6.60E−03 RS1592326 2212 LOC643650 643650 10 46542721 6.70E−03 RS2662258 1859 RGMB 285704 5 98153430 6.70E−03 RS10484177 2410 14 43966684 6.80E−03 RS10496972 1587 2 145540029 6.80E−03 RS1337647 2344 13 37440845 6.80E−03 RS161723 1478 PRNPIP 79033 1 44555954 6.80E−03 RS1073601 1870 5 98594496 6.90E−03 RS1426935 456 4 175767040 6.90E−03 RS725937 582 SPARC 6678 5 151036904 6.90E−03 RS10496895 1586 LRP1B 53353 2 142242169 7.10E−03 RS1816607 1579 LRP1B 53353 2 142194712 7.10E−03 RS470732 1166 12 128049248 7.10E−03 RS896331 2254 11 45371611 7.10E−03 RS4112759 944 9 119274090 7.20E−03 RS10491853 2193 9 119437440 7.30E−03 RS9291322 1735 4 47958799 7.30E−03 RS10483311 2374 14 25665022 7.40E−03 RS240943 2109 EXTL3 2137 8 28620759 7.40E−03 RS2474265 1974 LOC442238 442238 6 100640983 7.40E−03 RS533706 1943 LOC653802 653802 6 42420353 7.40E−03 RS10499770 2047 LOC653435 653435 7 63208951 7.50E−03 RS10503168 2073 LOC644668 644668 8 1804693 7.50E−03 RS1945613 2243 11 15057846 7.50E−03 RS2200455 1160 12 127358570 7.50E−03 RS4128928 1678 3 119083686 7.50E−03 RS4131462 1972 6 99364568 7.50E−03 RS4510935 945 9 119325172 7.50E−03 RS10502069 2295 11 105821821 7.60E−03 RS9323099 2411 14 44019800 7.70E−03 RS2614074 813 8 28222739 7.80E−03 RS1436322 2320 12 29446072 7.90E−03 RS1948697 1682 LOC389142 389142 3 119243756 7.90E−03 RS1003194 2244 11 15082661 8.10E−03 RS2170367 1970 6 99201267 8.10E−03 RS10492136 2313 GRIN2B 2904 12 13803044 8.20E−03 RS10511369 1677 3 118824534 8.20E−03 RS2396817 636 6 47255521 8.20E−03 RS10496892 1581 LRP1B 53353 2 142195142 8.30E−03 RS10499023 1971 6 99333450 8.30E−03 RS10483390 2391 14 31411927 8.40E−03 RS10503830 2106 FZD3 7976 8 28448462 8.60E−03 RS6760896 1618 MGC42174 129563 2 232881167 8.60E−03 RS1847340 1707 FGF12 2257 3 193762780 8.70E−03 RS331934 1860 5 98167620 8.70E−03 RS9322878 2390 14 31411657 8.70E−03 RS6985068 2081 MSRA 4482 8 10147230 8.80E−03 RS10496891 1580 LRP1B 53353 2 142195006 9.00E−03 RS10520290 460 GLRA3 8001 4 175868392 9.00E−03 RS329205 2190 9 8698415 9.00E−03 RS4129498 2494 18 21255712 9.00E−03 RS10484332 1922 6 14448309 9.10E−03 RS10518956 2445 LOC390576 390576 15 35596072 9.10E−03 RS1392265 1683 LOC389142 389142 3 119283235 9.10E−03 RS10489168 1476 PRNPIP 79033 1 44500588 9.60E−03 RS1397853 2551 PTPRT 11122 20 40898556 9.60E−03 RS1524622 2045 7 62473121 9.60E−03 RS4840117 1976 6 100671550 9.70E−03 RS527828 2291 11 105756688 9.80E−03 RS9295626 1923 KIAA0319 9856 6 24695318 9.80E−03 RS10495786 1559 LTBP1 4052 2 33412933 9.90E−03 RS2328846 1924 KIAA0319 9856 6 24753174 1.01E−02 RS3213942 1604 STK39 27347 2 168529715 1.02E−02 RS966905 2251 11 45061617 1.02E−02 RS1915832 2046 LOC643595 643595 7 57008366 1.03E−02 RS10495785 158 LTBP1 4052 2 33414601 1.08E−02 RS6543706 1560 LTBP1 4052 2 33413214 1.08E−02 RS871151 75 1 100896325 1.08E−02 RS9989478 2468 GAS7 8522 17 9966550 1.10E−02 RS6904345 1925 THEM2 55856 6 24805403 1.10E−02 RS10503406 2080 MSRA 4482 8 10146382 1.12E−02 RS2754777 1926 6 24898441 1.12E−02 RS4128139 2446 15 35710549 1.13E−02 RS344924 15 1 67878041 1.15E−02 RS623892 2049 7 63382694 1.15E−02 RS9297299 2147 8 102085512 1.15E−02 RS10495787 1561 LTBP1 4052 2 33453813 1.16E−02 RS687547 2048 7 63382364 1.16E−02 RS10493058 1474 1 34761541 1.17E−02 RS2227019 2110 8 28671025 1.18E−02 RS1500251 1871 5 98621353 1.22E−02 RS632301 1380 18 22616756 1.22E−02 RS1429220 125 2 5848492 1.23E−02 RS10520288 455 4 175746768 1.24E−02 RS1354151 1676 3 118818111 1.24E−02 RS10491090 2469 GAS7 8522 17 9988337 1.25E−02 RS10497331 1603 STK39 27347 2 168527326 1.30E−02 RS10502470 1378 KCTD1 284252 18 22452475 1.34E−02 RS2077811 1379 18 22558197 1.41E−02 RS7813443 2146 8 102074947 1.42E−02 RS10497330 1602 2 168508565 1.53E−02 RS7030902 2191 9 87024911 1.61E−02 RS1514897 2342 12 127330028 2.29E−02 RS7213983 2467 GLP2R 9340 17 9732840 3.02E−02 RS10521160 2465 USP43 124739 17 9512325 3.23E−02 RS1402656 2466 GLP2R 9340 17 9681965 3.25E−02 RS10501796 2275 FAT3 120114 11 92092804 <0.0001 RS10501797 2276 FAT3 120114 11 92167618 <0.0001 RS10507768 2359 13 68865849 <0.0001 RS10517836 1747 4 63541480 <0.0001 RS1062225 984 MAPK8 5599 10 49313232 <0.0001 RS1792369 1090 FAT3 120114 11 92092081 <0.0001 RS1867584 985 10 49321355 <0.0001 RS2889611 2213 10 49321754 <0.0001 RS3912653 1091 FAT3 120114 11 92135172 <0.0001 RS7939598 2277 FAT3 120114 11 92212152 <0.0001 RS949627 2360 13 68893818 <0.0001

TABLE 8 Genes associated with HDL based on t-test, F-test and HPM results. GENE Gene_ID Chromosome C6orf103 79747 6 NPAS3 64067 14 MAGI2 9863 7 ANGPT1 284 8 RRM2B 50484 8 TAF7 6879 5 MGC42174 129563 2 FLJ33708 285780 6 LY86 9450 6 NTNG1 22854 1 LTBP1 4052 2 MBP 4155 18 MSR1 4481 8 SERPINA5 5104 14 THRB 7068 3 GALC 2581 14 ARL15 54622 5 GABRG2 2566 5 TMEM16C 63982 11 UNC13C 440279 15 LOC644954 644954 10 HNRPD 3184 4 LOC391672 391672 4 CNGB3 54714 8 SGCG 6445 13 13CDNA73 10129 13 BICC1 80114 10 ZFPM2 23414 8 CRIM1 51232 2 TULP4 56995 6 EFHA1 221154 13 GPR110 266977 6 LUZP2 338645 11 SYNE2 23224 14 LOC646176 646176 11 PYGL 5836 14 FRAS1 80144 4 CNNM2 54805 10 HYPB 29072 3 DMD 1756 X SVEP1 79987 9 MAPK8 5599 10 ABCD3 5825 1 NTN1 9423 17 SPATA4 132851 4 FLJ32942 121355 12 SNAP25 6616 20 NAALADL2 254827 3 CAMTA1 23261 1 NT5C2 22978 10 RORA 6095 15 XRCC2 7516 7 mimitin 91942 5 DOK6 220164 18 LOC400954 400954 2 FRMPD2 143162 10 NPC1 4864 18 PRKG1 5592 10 LOC646790 646790 2 FARS2 10667 6 GPC5 2262 13 WRN 7486 8 ZNF429 353088 19 CACNA1E 777 1 GARNL1 253959 14 APLP2 334 11 ASTN2 23245 9 VGCNL1 259232 13 TRPA1 8989 8 DLG2 1740 11 CARD8 22900 19 HECW2 57520 2 LAMA3 3909 18 TANC2 26115 17 TAF3 83860 10 KIAA1843 84540 2 PTPN12 5782 7 UNQ6975 400952 2 NCAM1 4684 11 FLJ10099 55069 7 CUBN 8029 10 C10orf130 387707 10 E2F2 1870 1 F3 2152 1 SFRP4 6424 7 KALRN 8997 3 LOC653748 653748 7 RIT2 6014 18 LOC285929 285929 7 TAS2R16 50833 7 ITGB5 3693 3 CCDC26 137196 8 FLT4 2324 5 BLNK 29760 10 GLA 2717 X LOC644053 644053 1 PCSK1 5122 5 CNTN3 5067 3 LOC646444 646444 8 C10orf107 219621 10 LOC138046 138046 8 ANK3 288 10 DKFZP566M1046 84067 11 ADAM12 8038 10 SMYD3 64754 1 C10orf112 340895 10 MGC48628 401145 4 UFM1 51569 13 PCDH7 5099 4 LRP1B 53353 2 CDADC1 81602 13 NRG3 10718 10 HNRPDL 9987 4 LOC645492 645492 6 FMN2 56776 1 FAT3 120114 11 FLJ16124 440867 2 KIAA1797 54914 9 SLC4A4 8671 4 C12orf26 84190 12 AAA1 404744 7 GABRB1 2560 4 LOC647219 647219 1 PGM5 5239 9 GNAL 2774 18 ADAM29 11086 4 MAP2K6 5608 17 PSMA1 5682 11 TLR4 7099 9 LOC442161 442161 6 SLC15A2 6565 3 AMPH 273 7 UNC5C 8633 4 UBQLN1 29979 9 LOC388458 388458 18 CPNE3 8895 8 SLC15A4 121260 12 EPHB1 2047 3 GPR158 57512 10 GPC6 10082 13 TRIM24 8805 7 HLA-DQB2 3120 6 KIAA1772 80000 18 VRK1 7443 14 PTPRT 11122 20 RBBP5 5929 1 DKFZp761O2018 92293 12 LOC388730 388730 1 KCNH5 27133 14 DGKB 1607 7 COL25A1 84570 4 BIVM 54841 13 FBXL3 26224 13 TSPAN8 7103 12 TXNDC3 51314 7 GRIN2B 2904 12 LOC283553 283553 14 PLEKHA7 144100 11 RAPGEF4 11069 2 LPHN2 23266 1 HABP2 3026 10 SDK1 221935 7 CNTN5 53942 11 GBP2 2634 1 GRIK1 2897 21 ADCY2 108 5 GAS7 8522 17 RIPK5 25778 1 FAM77D 286183 8 AOX2 344454 2 BCL2 596 18 ZBTB10 65986 8 CSMD1 64478 8 BACE2 25825 21 PLEKHH2 130271 2 EPDR1 54749 7 KCTD1 284252 18 LOC442117 442117 4 C11orf11 747 11 PAP2D 163404 1 MANBA 4126 4 CRSP8 9442 9 LOC646697 646697 4 LOC440261 440261 15 KCNQ5 56479 6 GMDS 2762 6 PSD3 23362 8 CAST1 26059 3 DLGAP2 9228 8 USH2A 7399 1 RYR2 6262 1 MCF2L2 23101 3 VSNL1 7447 2 LSAMP 4045 3 FARP1 10160 13 MCTP2 55784 15 SRFBP1 153443 5 EPHA4 2043 2 CRISP2 7180 6 LOC442238 442238 6 POU6F2 11281 7 LOC144678 144678 12 KIAA1276 27146 4 GBAS 2631 7 PDE8B 8622 5 NMNAT2 23057 1 FLJ34931 388939 2 PTPRJ 5795 11 OSBPL1A 114876 18 FLJ25323 374470 12 SCFD2 152579 4 ABCA12 26154 2 MAPK10 5602 4 LOC645939 645939 1 LOC139060 139060 X USP10 9100 16 NFIA 4774 1 CLDN11 5010 3 RGS9 8787 17 IL6 3569 7 ITSN1 6453 21 GALNT14 79623 2 TASP1 55617 20 CLPB 81570 11 PTPRR 5801 12 USP24 23358 1 FLJ39155 133584 5 MALL 7851 2 C9orf125 84302 9 PRICKLE2 166336 3 DNAJC5B 85479 8 DTNA 1837 18 SDHC 6391 1 HSPC117 51493 22 LCTL 197021 15 MGC9850 219404 13 LOC119710 119710 11 LOC645254 645254 10 UST 10090 6 KIAA1622 57718 14 MYO1B 4430 2 C9orf39 54875 9 STAU2 27067 8 ESRRG 2104 1 AYTL1 54947 16 ATE1 11101 10 COMMD10 51397 5 PHACTR1 221692 6 YPEL2 388403 17 KIAA1706 80820 7 LRRN6C 158038 9 GDF9 2661 5 LGR5 8549 12 FLJ45974 401337 7 VAV3 10451 1 C20orf133 140733 20 LOC644802 644802 22 C10orf80 159686 10 MEIS2 4212 15 SLC9A9 285195 3 GBP1 2633 1 GPR116 221395 6 SLC39A12 221074 10 TEC 7006 4 KIAA0746 23231 4 FLJ26443 400165 13 LOC342531 342531 17 IRS1 3667 2 FSTL4 23105 5 ZNF533 151126 2 CHST11 50515 12 SLC17A3 10786 6 MSRB3 253827 12 DSG4 147409 18 LOC441900 441900 1 TMEFF2 23671 2 ZNF659 79750 3 RSBN1L 222194 7 PAPPA2 60676 1 DCAMKL2 166614 4 LOC645986 645986 8 GRM7 2917 3 LOC134541 134541 5 SPIRE1 56907 18 EDIL3 10085 5 ACN9 57001 7 PEX5L 51555 3 MMP2 4313 16 ABCC4 10257 13 NPHP1 4867 2 CNTN2 6900 1 GPR73L1 128674 20 DDAH1 23576 1 WWOX 51741 16 TCAB1 154215 6 SYNE1 23345 6 LOC647154 647154 13 G3BP 10146 5 COL24A1 255631 1 SNTG1 54212 8 IL19 29949 1 CDH13 1012 16 FLJ34690 284034 17 C9orf84 158401 9 NAV3 89795 12 SORBS1 10580 10 SV2V 22987 5 PIK3C3 5289 18 CNTN4 152330 3 C6orf96 55005 6 LOC646169 646169 11 FBXO33 254170 14 RGS3 5998 9 PHC1 1911 12 SALF 286749 2 GLRA1 2741 5 GLRA3 8001 4 LOC389644 389644 8 PALLD 23022 4 IQCB1 9657 3 FLJ22104 65084 11 GRIN2A 2903 16 KIAA0774 23281 13 DCP1B 196513 12 NUBPL 80224 14 PNLIPRP3 119548 10 FAT4 79633 4 LOC401898 401898 19 COL11A1 1301 1 GLYAT 10249 11 GLYATL2 219970 11 GRIN3A 116443 9 FLJ21820 60526 2 ZBTB20 26137 3 PTPRD 5789 9 TEX2 55852 17 SLC6A17 388662 1 NCAM2 4685 21 CDK6 1021 7 ROR1 4919 1 TMEM16D 121601 12 KBTBD9 114818 2 ANXA5 308 4 SPARC 6678 5 ZBTB2 57621 6 CST9 128822 20 ST3GAL6 10402 3 C1orf139 79971 1 NTRK2 4915 9 LOC128820 128820 20 ROCK1 6093 18 LOC401954 401954 1 ZNF85 7639 19 ZNF208 7757 19 OTUB2 78990 14 GALNTL4 374378 11 TMCC2 9911 1 LOC390503 390503 14 PNOC 5368 8

TABLE 9 Genes associated with APOA1 based on t-test, F-test and HPM results. GENE Gene_ID Chromosome SERPINA5 5104 14 PSD3 23362 8 LOC644954 644954 10 mimitin 91942 5 MGC42174 129563 2 NPAS3 64067 14 RRM2B 50484 8 FLJ33708 285780 6 TAF7 6879 5 FAT3 120114 11 MAGI2 9863 7 LY86 9450 6 MBP 4155 18 BMP6 654 6 GBP2 2634 1 GARNL1 253959 14 GABRG2 2566 5 DACH2 117154 X MAPK8 5599 10 MDS1 4197 3 LOC442238 442238 6 MARCH8 220972 10 DKFZp761O2018 92293 12 GBP1 2633 1 NDST4 64579 4 RAB6IP2 23085 12 PTPRT 11122 20 TM7SF4 81501 8 SLC17A3 10786 6 AMPH 273 7 LOC128153 128153 1 DLGAP2 9228 8 LPHN2 23266 1 C6orf103 79747 6 SDK1 221935 7 ANK3 288 10 TPD52L1 7164 6 SEMA5A 9037 5 ZNF521 25925 18 ARHGAP22 58504 10 ELOVL7 79993 5 C9orf39 54875 9 DEPC-1 221120 11 ESRRG 2104 1 LTBP1 4052 2 ARL15 54622 5 FAM19A4 151647 3 CLPTM1 1209 19 CDYL 9425 6 MSR1 4481 8 RYR2 6262 1 C20orf133 140733 20 LOC392222 392222 8 TASP1 55617 20 FLT4 2324 5 GRIK4 2900 11 THRB 7068 3 MITF 4286 3 C15orf41 84529 15 LOC389142 389142 3 NRG3 10718 10 SLC15A4 121260 12 LOC144678 144678 12 PTHB1 27241 7 TAF3 83860 10 RIMS1 22999 6 ACADSB 36 10 SLC35F1 222553 6 ABCA12 26154 2 HEPHL1 341208 11 BAI3 577 6 HUNK 30811 21 UST 10090 6 TAF4B 6875 18 COL14A1 7373 8 CSS3 337876 5 LOC653802 653802 6 C9orf84 158401 9 GRM1 2911 6 C8orf37 157657 8 ASTN 460 1 RGS7 6000 1 FLJ36166 349152 7 ANGPT1 284 8 FARS2 10667 6 SYNE2 23224 14 SMYD3 64754 1 GPC5 2262 13 FAM55D 54827 11 LOC390843 390843 18 LOC283247 283247 11 ADAMTS12 81792 5 FGF12 2257 3 MTMR3 8897 22 LUZP2 338645 11 C9orf125 84302 9 SYTL3 94120 6 NTNG1 22854 1 UNC5C 8633 4 KIAA0672 9912 17 RORA 6095 15 ZFPM2 23414 8 GAS7 8522 17 NUBPL 80224 14 SEC11L2 157708 8 PTPRJ 5795 11 UNC13C 440279 15 C21orf41 54073 21 KIAA1191 57179 5 GPR115 221393 6 UNQ6975 400952 2 CGI-09 51602 20 DMD 1756 X TEC 7006 4 HSPC117 51493 22 TCTEX1D1 200132 1 FBN2 2201 5 CSMD1 64478 8 CARD8 22900 19 PDE4D 5144 5 SEMA3D 223117 7 NAALADL2 254827 3 MID1 4281 X C8ORFK36 340359 8 RB1CC1 9821 8 IFRD1 3475 7 TPR 7175 1 ERCC8 1161 5 XRCC2 7516 7 BCAS1 8537 20 MSRA 4482 8 DGKB 1607 7 ATG5 9474 6 C7orf25 79020 7 TMEM108 66000 3 PLXDC2 84898 10 HECW2 57520 2 MSH3 4437 5 KIAA1239 57495 4 GRIN2B 2904 12 TXNDC5 81567 6 LOC138046 138046 8 C1orf139 79971 1 C10orf130 387707 10 DNAJA2 10294 16 KCTD1 284252 18 LOC643811 643811 15 FLJ10379 55133 2 PIGN 23556 18 CCDC50 152137 3 PNOC 5368 8 FZD3 7976 8 ITSN1 6453 21 POGZ 23126 1 XKR4 114786 8 ATE1 11101 10 RAD51L1 5890 14 SH3BGRL2 83699 6 RGMB 285704 5 KIAA1414 54497 2 NPC1 4864 18 ABTB2 25841 11 ADCK1 57143 14 C10orf115 387642 10 CALN1 83698 7 FBXO16 157574 8 PPFIA2 8499 12 STK39 27347 2 FAM19A1 407738 3 FBXO42 54455 1 CDC2 983 10 BLNK 29760 10 CNTN6 27255 3 PHC1 1911 12 ARHGAP18 93663 6 PRG4 10216 1 LOC401898 401898 19 HYPB 29072 3 FRMPD2 143162 10 CNNM2 54805 10 C1orf27 54953 1 FLJ10159 55084 6 SBF2 81846 11 SRGAP3 9901 3 SLC8A1 6546 2 TGFBR2 7048 3 LAMA3 3909 18 MALL 7851 2 UBR2 23304 6 ZBTB20 26137 3 REG4 83998 1 ITIH5 80760 10 ADAMTS19 171019 5 KIAA1468 57614 18 LRP1B 53353 2 PGBD3P3 267007 12 LOC646210 646210 5 RUTBC2 129049 22 WWOX 51741 16 SP110 3431 2 OR4C4P 79550 11 LOC442195 442195 6 LARGE 9215 22 SLC25A24 29957 1 CACNA2D3 55799 3 SGIP1 84251 1 GALC 2581 14 LOC387755 387755 11 IQCB1 9657 3 FMN2 56776 1 AP3B1 8546 5 EIF3S10 8661 10 NPHP1 4867 2 ANKRD28 23243 3 CAPS2 84698 12 LOC653227 653227 15 ANKS1 23294 6 EMR3 84658 19 DNAJC5B 85479 8 PAPPA2 60676 1 CDH13 1012 16 FRAS1 80144 4 CABIN1 23523 22 RSRC1 51319 3 CLDN11 5010 3 GUCA1C 9626 3 SRI 6717 7 TSPAN8 7103 12 LOC646385 646385 7 RYR3 6263 15 LOC653748 653748 7 C18orf1 753 18 NMNAT3 349565 3 LOC645960 645960 8 DYNC2LI1 51626 2 C10orf72 196740 10 C7orf10 79783 7 RAC1P1 387612 18 TYRL 7300 11 LOC646176 646176 11 CSMD2 114784 1 CNTNAP5 129684 2 NTRK2 4915 9 ZBTB11 27107 3 PAX9 5083 14 GPATC2 55105 1 HNRPD 3184 4 CCBE1 147372 18 CNTN4 152330 3 CTNND2 1501 5 DDEF1 50807 8 CPXM2 119587 10 UTRN 7402 6 PRNPIP 79033 1 DRCTNNB1A 84668 7 ALK 238 2 PFKP 5214 10 SLC44A5 204962 1 MPPED2 744 11 DNAH8 1769 6 ZFAND3 60685 6 SPIRE1 56907 18 LOC646184 646184 13 SEC15L2 23233 2 LOC647219 647219 1 C14orf101 54916 14 ANKRD50 57182 4 GLRA3 8001 4 TMEM16D 121601 12 LYST 1130 1 LOC390576 390576 15 GBAS 2631 7 PEX5L 51555 3 C10orf110 55853 10 LOC223075 223075 7 EPHA6 285220 3 RARB 5915 3 LRRN1 57633 3 DGAT2L4 158835 X MUC19 283463 12 ITGA1 3672 5 GADL1 339896 3 ADCY9 115 16 EXOC3 11336 5 UBE2E2 7325 3 EFHA1 221154 13 CRIM1 51232 2 PRDM11 56981 11 LOC653584 653584 3 FLJ22104 65084 11 TUBB1 81027 20 SGNE1 6447 15 MBD2 8932 18 PALLD 23022 4 FSTL4 23105 5 GLRA1 2741 5 LOC653480 653480 10 NCAM2 4685 21 TMEFF2 23671 2 TRAPPC6B 122553 14 HIVEP3 59269 1 MORC1 27136 3 NTN1 9423 17 PTX1 51290 12 CADPS 8618 3 C6orf32 9750 6 SERBP1 26135 1 BRMS1L 84312 14 SH3GL2 6456 9 C1orf164 55182 1 LOC644668 644668 8 CHD1 1105 5 G3BP 10146 5 FLJ30058 158763 X CALCB 797 11 FBXL4 26235 6 LOC122592 122592 14 LOC643650 643650 10 SPARC 6678 5 EXTL3 2317 8 LOC653435 653435 7 KIAA0319 9856 6 LOC643595 643595 7 THEM2 55856 6 GLP2R 9340 17 USP43 124739 17

TABLE 10 A linear regression model predicting serum HDL-Cholesterol concentration. Sequence Risk Vari- Un Std. dbSNP rs ID ID Gene and Gene ID Chromosome Position Allele Frequency ants stand. b Error Stand. b t value P value RS10485111 681 6 11629981 T 13.36 C/T 0.086 0.025 0.134 3.420 0.001 RS10497776 228 2 196678391 G 1.31 A/G 0.328 0.084 0.151 3.889 <0.001 RS10506790 1141 12 7784138 A 9.27 A/G 0.116 0.03 0.154 3.938 <0.001 RS1452528 670 6 79155079 A 49.73 A/G 0.071 0.017 0.165 4.191 <0.001 RS1480145 796 8 16181494 G 1.83 C/G 0.240 0.056 0.169 4.320 <0.001 RS1490125 651 6 66451580 T 13.72 G/T −0.151 0.027 −0.220 −5.716 <0.001 RS1851006 1278 UNC13C 440279 15 52691684 C 46.3 C/T −0.068 0.017 −0.151 −3.921 <0.001 RS1935229 1 CAMTA1 23261 1 7683588 C 6.84 C/T 0.148 0.035 0.165 4.276 <0.001 RS198278 711 7 24214718 A 47.97 A/G −0.083 0.017 −0.185 −4.803 <0.001 RS2029259 484 4 188284137 C 11.45 A/C 0.094 0.026 0.142 3.639 <0.001 RS2195989 872 ANGPT1 284 8 108555088 C 13.8 C/T 0.089 0.023 0.153 3.842 <0.001 RS2333821 170 LOC646790 646790 2 44230030 T 26.44 C/T 0.085 0.019 0.174 4.556 <0.001 RS33375 598 5 170998718 A 14.53 A/G 0.085 0.025 0.133 3.400 0.001 RS4770403 1173 SGCG 6445 13 22653127 A 11.75 A/G 0.113 0.028 0.159 4.066 <0.001 RS723043 157 LTBP1 4052 2 33395291 T 43.22 G/T 0.072 0.018 0.150 3.886 <0.001 RS745708 976 FRMPD2 143162 10 49115681 G 18.04 A/G 0.097 0.023 0.165 4.283 <0.001 RS7794555 754 LOC653748 653748 7 153675164 T 6.84 C/T 0.194 0.034 0.219 5.662 <0.001 RS896990 251 MGC42174 129563 2 232597100 A 8.9 A/C 0.139 0.028 0.192 4.973 <0.001 dbSNP_rs_ID: SNP identification number in NCBI dbSNP database build 125 Gene_locus: Gene positioned in the physical position pointed by the SNP according to NCBI Human Genome Build 36

TABLE 11 A linear regression model predicting serum ApoA1 concentration. Sequence Risk Vari- Un Std. dbSNP rs ID ID Gene and Gene ID Chromosome Position Allele Frequency ants stand. b Error Stand. b t value P value RS1016579 881 8 129269143 A 6.41 A/G 0.153 0.031 0.195 4.946 <0.001 RS10498673 1912 BMP6 654 6 7770256 T 14.02 C/T 0.146 0.020 0.288 7.437 <0.001 RS10521381 2582 X 85978186 G 29.44 G/T 0.053 0.012 0.177 4.509 <0.001 RS1298362 1136 12 74493708 A 47.57 A/G −0.057 0.014 −0.158 −3.983 <0.001 RS1867584 985 10 49321355 T 41.74 C/T 0.053 0.014 0.146 3.687 <0.001 RS2111826 309 CLDN11 5010 3 171623540 A 9.21 A/G −0.102 0.027 −0.147 −3.809 <0.001 RS2353296 1733 6 47956320 A 7.08 A/C 0.106 0.028 0.148 3.742 <0.001 RS25937 1815 CTNND2 1501 5 11556189 A 9.55 A/G 0.100 0.027 0.145 3.693 <0.001 RS352427 816 8 28571996 G 3.29 A/G 0.152 0.038 0.158 4.064 <0.001 RS3912653 1091 FAT3 120114 11 92135172 A 39.68 A/G −0.056 0.014 −0.157 −4.027 <0.001 RS6919514 688 UST 10090 6 149151922 G 9.19 G/T 0.108 0.026 0.164 4.205 <0.001 RS6954679 728 7 63134099 G 8.03 A/G 0.127 0.024 0.208 5.272 <0.001 RS877345 958 TAF3 83860 10 8093782 C 9.5 A/C 0.083 0.023 0.139 3.566 <0.001 RS878016 757 DLGAP2 9228 8 1585693 C 27.11 A/C 0.060 0.014 0.167 4.284 <0.001 RS901682 2208 MARCH8 220972 10 45285867 A 5.67 A/G −0.217 0.030 −0.289 −7.300 <0.001 RS9323682 2422 14 79536316 A 7.65 A/G 0.083 0.025 0.131 3.358 0.001 dbSNP_rs_ID: SNP identification number in NCBI dbSNP database build 125 Gene_locus: Gene positioned in the physical position pointed by the SNP according to NCBI Human Genome Build 36 Sequence_ID: Sequence identification number Risk_allele: The allele that is considered as independet variable in the regression model Frequency: Frequency of the risk-allele in the data Variants: Variant alleles present in the SNP Un stand. b: Unstandardized coefficient in the regression model Std. Error: Standard error of the coefficient Stand. b: Standardized coefficient t value: t value for unstandardized coefficient b P value: Two tailed significance level of t Coding of SNPs: 0, 1, 2 where code 2 denotes homozygocity of the minor allele code 1 heterozygocity and code 0 homozygocity of non-minor allele.

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1. A method for preventing or treating of a low high density lipoprotein (HDL) condition or trait in a mammalian subject comprising modulation of biological activity, function or concentration of at least one polypeptide encoded by HDL associated genes set forth in tables 1, 8 and 9 in said subject.
 2. The method according to claim 1, wherein a low HDL condition or trait is any condition or trait in which the HDL-C level of a subject is below the accepted normal HDL-C levels.
 3. The method according to claim 1, wherein the HDL-C level of a subject is below the average HDL-C level of the related population.
 4. The method according to claim 1, wherein the HDL-C level of a subject is below 1.3 mmol/l.
 5. The method according to claim 1, wherein the subject with normal HDL-C levels has increased risk to a low HDL-C condition or trait.
 6. The method according to claim 1, wherein the low HDL condition or trait comprises lipid disorders, inflammation, cancer, Alzheimer disease, oxidative stress, smoking, obesity, cardiovascular disease, type 2 diabetes and the metabolic syndrome.
 7. The method according to claim 1, wherein the subject is at elevated risk of a low HDL-C condition or trait because of family history.
 8. The method according to claim 6, wherein the lipid disorder comprises low high density lipoprotein, low ApoA1 lipoprotein, elevated VLDL, elevated LDL-C level, elevated triglycerides level or elevated total cholesterol level.
 9. The method according to claim 6, wherein the inflammation is characterized by elevated levels of one or several inflammation markers such as but not limited to C-reactive protein, fibrinogen, leukocyte count or amyloid A.
 10. The method according to claim 6 wherein oxidative stress is characterized by elevated levels of one or several oxidative stress markers such as oxidatively modified lipids or lipoproteins, autoantibodies against oxidatively modified lipids or lipoproteins, oxidatively modifies bases, nucleotides or DNA or RNA, or oxidatively modified proteins.
 11. The method according to claim 1 comprising administering to a mammalian subject in need of such treatment an effective amount of a compound in a pharmaceutically acceptable carrier altering expression of one or more genes set forth in tables 1, 8 and
 9. 12. The method according to claim 1 comprising administering to a mammalian subject in need of such treatment an effective amount of a compound in a pharmaceutically acceptable carrier altering biological activity or function of polypeptides encoded by one or more genes set forth in tables 1, 8 and
 9. 13. The method according to claim 1 comprising administering to a mammalian subject in need of such treatment an effective amount of a compound in a pharmaceutically acceptable carrier altering activity or function of a biological network or a metabolic pathway related to a gene set forth in table 1, 8 or
 9. 14. The method according to claim 1 comprising administering to a mammalian subject in need of such treatment an effective amount of a compound in a pharmaceutically acceptable carrier altering activity of a pathophysiological pathway related to a gene set forth in table 1, 8 or
 9. 15. The method according to claim 1 comprising a recombinant polypeptide encoded by a HDL-C associated gene set forth in table 1, 8 or 9, or variants, fragments or derivatives thereof.
 16. The method according to claim 1 comprising gene therapy or gene transfer of at least one HDL-C associated gene set forth in table 1, 8 or 9, or variants, fragments or derivatives thereof.
 17. The method according to claim 16, wherein said HDL-C associated gene, or its variants, fragments or derivatives thereof are associated with increased levels of HDL-C.
 18. The method according to claim 16, wherein said therapy comprises a polynucleotide hybridising under physiological conditions to the regulatory regions and/or to the polypeptide encoding region of a HDL-C associated gene set forth in table 1, 8 or 9, or variants, fragments or derivatives thereof in somatic cells, in stem cells, or in affected tissues of said subject.
 19. The method according to claim 16 comprising sequence specific gene silencing agents such as small interfering RNA (siRNA) or small hairpin RNA (shRNA) hybridising to mRNA and/or to hnRNA of a HDL-C associated gene set forth in tables 1, 8 or
 9. 20. The method according to claim 16 comprising sequence specific gene silencing agents such as siRNA or shRNA hybridising to mRNA and/or to hnRNA of a gene in a biological network or a metabolic pathway related to a gene set forth in table 1, 8 or
 9. 21. The method according to claim 1, wherein said treatment is based on a dietary treatment or a vaccination.
 22. A method for identifying a compound for prevention or treatment of a low HDL-C condition or trait comprising determining the effect of a compound on the biological activity or function of at least one polypeptide encoded by the HDL-C associated genes set forth in tables 1, 8 and 9 in living cells, wherein a compound altering biological activity or function of said polypeptide is considered useful in prevention or treatment of low HDL-C condition or trait.
 23. The method according to claim 22 comprising determining the effect of a compound on the biological activity or function of a biological network or a metabolic pathway related to a HDL-C associated gene set forth in table 1, 8 or 9, wherein a compound altering biological activity or function of a biological network or metabolic pathway is considered useful in prevention or treatment of low HDL-C condition or trait.
 24. The method according to claim 22 comprising non-human transgenic animals, mammalian tissues, organs or organ systems or cultured microbial, insect or mammalian cells expressing one or more of the HDL-C level associated genes set forth in tables 1, 8 and
 9. 25. The method according to claim 22 comprising non-human knock-out animals having one or more of the said HDL-C level associated genes inactivated.
 26. A pharmaceutical composition for prevention or treatment of a low HDL-C trait or condition comprising one or more compounds in a pharmaceutically acceptable carrier modulating biological activity, function or concentration of a polypeptide encoded by a HDL-C level associated gene set forth in table 1, 8 or 9 in a mammalian subject.
 27. The pharmaceutical composition according to claim 26 comprising one or more compounds in a pharmaceutically acceptable carrier modulating the biological activity or function of a biological network or a metabolic pathway related to said HDL-C associated gene set forth in table 1, 8 or
 9. 28. A method for manufacturing a medicament for preventing or treating of a low HDL-C condition or trait in a mammalian subject comprising a compound modulating biological activity, function or concentration of at least one polypeptide encoded by HDL-C level associated genes set forth in tables 1, 8 and 9 in said subject.
 29. A method for selecting efficient and safe HDL-C level increasing therapy to a subject comprising: a) providing a biological sample taken from the subject; b) assessing type and/or level of at least one biomarker in said sample, wherein said biomarkers are associated to one or more of the HDL-C related genes set forth in tables 1, 8 and 9, or said biomarkers are associated to biological networks or metabolic pathways related to said genes; and c) using the biomarker data to select efficient and safe therapy for the subject.
 30. The method according to claim 29, wherein at least one biomarker is selected from polymorphic sites residing in genomic regions containing the genes set forth in tables 1, 8 and
 9. 31. The method according to claim 29, wherein at least one biomarker is selected from SNP markers set forth in tables 2 to 7 and 10 to
 11. 32. The method according to claim 29, wherein at least one biomarker is selected from polymorphic sites associated with one or more of the SNP markers set forth in tables 2 to 7 and 10 to
 11. 33. The method according to claim 29, wherein at least one biomarker is selected from polymorphic sites being in complete linkage disequilibrium with one or more of the SNP markers set forth in tables 2 to 7 and 10 to
 11. 34. The method according to claim 29, wherein at least one biomarker is selected from expression products of the genes set forth in tables 1, 8 and
 9. 35. The method according to claim 29, wherein at least one biomarker is selected from the polypeptides encoded by the genes set forth in tables 1, 8 and
 9. 36. The method according to claim 29, wherein at least one biomarker is selected from the metabolites of the polypeptides encoded by the genes set forth in tables 1, 8 and
 9. 37. The method according to claim 29, wherein the low HDL-C condition or trait is any condition or trait in which the HDL-C level of a subject is below the accepted normal HDL-C levels.
 38. The method according to claim 29, wherein the HDL-C level of a subject is below the average HDL-C level of the related population.
 39. The method according to claim 29, wherein a low HDL-C condition or trait comprises lipid disorders, inflammation, cancer, Alzheimer disease, oxidative stress, smoking, obesity, cardiovascular disease, type 2 diabetes or the metabolic syndrome.
 40. The method according to claim 29 further comprising step d) combining personal and clinical information with the biomarker data to make the selection of the therapy.
 41. The method according to claim 40, wherein the personal and clinical information, i.e. non-genetic information concerns age, gender, behaviour patterns and habits, biochemical measurements, clinical measurements, obesity, T2D, cardiovascular disease, dyslipoproteinemia, waist-to-hip circumference ratio (cm/cm), socioeconomic status, psychological traits and states, the medical history of the subject and the family history of said conditions.
 42. The method according to claim 40, wherein the dyslipoproteinemia comprises high VLDL level and/or high LDL-C level or/and high triglyceride level and/or high total cholesterol level.
 43. The method according to claim 40, wherein the clinical information comprises high plasma level of markers of inflammation at any moment of lifespan.
 44. The method according to claim 40, wherein the clinical information comprises high plasma level of markers of oxidative stress.
 45. The method according to claim 40, wherein the behaviour patterns and habits include tobacco smoking, physical activity, dietary intakes of nutrients, alcohol intake and consumption patterns and coffee consumption and quality.
 46. The method according to claim 40, wherein the biochemical measurements include determining blood, serum or plasma VLDL, LDL, HDL or total cholesterol or triglycerides, ApoA1, fibrinogen, ferritin, transferrin receptor, C-reactive protein, glucose or insulin concentration.
 47. A test kit based on a method of claim 29 for selecting efficient and safe HDL-C level increasing therapy to a subject comprising: a) reagents, materials and protocols for assessing type and/or level of one or more biomarkers in a biological sample, wherein said biomarkers are associated to one or more of the HDL-C related genes set forth in tables 1, 8 and 9, or said biomarkers are associated to biological networks or metabolic pathways related to said genes; and b) instructions and software for using the biomarker data to select efficient and safe therapy for the subject.
 48. The test kit according to claim 47 further comprising questionnaire and instructions for collecting personal and clinical information from the subject. 